CS258528B1 - Control system for fast measurement of multiplexed analog signals with different settling times - Google Patents

Abstract

The circuit relates to the field of measuring electronic devices. The circuit solves the problem of controlling the fast measurement of analog signals in a microcomputer-controlled environmental contact unit. The essence of the circuit is that it uses a channel and range address register and a channel number register, the contents of which are automatically recorded in the address counter and channel number counter when data is taken from the last measured channel, the contents of which change by one after each measurement. The timer circuits automatically determine the voltage stabilization time at the input of the analog-to-digital converter, depending on the selected range. The circuit can also be used in the field of automation, regulation and control devices.

Description

The invention relates to a microcomputer-controlled fast measurement system of multiplexed analogue signals with an automatically adjustable time for stabilizing the voltage at the output of the amplifier according to the choice of the measured signal range.

Known connections of microcomputer-controlled units for contact with the environment are used to measure analog signals of program control. Before each measurement, the range, address of the measured channel is always selected sequentially and, according to the selected range, a measurement command is sent for the appropriate time needed to stabilize the voltage at the amplifier output. The validity of the data after the measurement is confirmed by sending an interrupt signal to the microcomputer. After the measured data has been collected by the microcomputer, these program-controlled operations are performed again for the next measured channel. All these steps required to measure a single channel affect the total measurement time of a single channel.

These disadvantages are overcome by the wiring of a fast measurement control system of multiplexed analog signals with different settling times according to the invention, characterized in that the first channel address and range register input is connected to the first of the address wires, the first channel number and mode register input to the second address wires, a first input data register entry with a third of the address wires and a first command register entry with a fourth of the address wires, wherein the second channel address and range register entries are associated with second channel number and mode register entries, with the first input data register outputs, with a second command register input and a data input and output bus, the third channel address and range register register input being associated with a third channel and mode register register input, a third command register input and a recording conductor, and a second input register register input; The output data of the channel address and range register register outputs are connected to the first inputs of the range decoders and the first inputs of the environment contact unit, its recording output is connected to the first input of the first summation circuit and its channel address outputs are connected to the second inputs of the channel counter whose first input is connected to the output of the first summation circuit, the third input to the third input of the channel count counter, the second input of the product gate and the second output of the input data register and its channel address outputs the second input is connected to the output of the timing circuits, the third input is connected to the first output of the environmental contact unit, the second input to the first flip-flop input and the third summation output, and the first inputs are connected to the range decoder outputs. only with the third output of the channel and mode register whose first outputs are connected to the first inputs of the channel count counter, the second output to the first input of the second summation circuit, the fourth output to the first input of the second product gate; the output is coupled to a second input of the third summation circuit, the first input of which is connected to the output of the second gate of the second summation connected to the input terminal, the second input of the first summation circuit to the output of the channel counter with the second input of the flip-flop; a summation circuit whose output is coupled to a second channel counter input, while a flip-flop output is coupled to a fourth input of an environmental interface unit whose second outputs are coupled to third inputs of an input data register and the command register output is a link n with a third input of the third summation circuit.

By incorporating a fast measurement control system of multiplexed analog signals with different settling times according to the invention, an optimally short measuring time per channel attainable for a given type of microcomputer and given hardware circuits of the multiplexer, amplifier and analog-to-digital converter can be achieved. It allows automatic repeat measurement of up to 32 channels at maximum achievable speed, or speeds given by external trigger signals. Another advantage of the circuit according to the invention is the possibility of controlling multiple sampling circuits with subsequent rapid measurement of the sampled voltage values.

In the accompanying drawing, a block diagram of a fast measurement control system of multiplexed analog signals with different settling times according to the invention is shown. Connections consist of J. register addresses and ranges of channels having a first input 16 is coupled to a first address from ^- ADR conductors, the first input 21 of the register 2 and the number of channels of modes with a second address from the address lines ADR, a first input 21 of the register 2 the number of channels and modes with the second of the address wires of the ADR, the first input 31 of the input data register J with the third of the address wires of the ADR, and the first input 41 of the command register 6 with the fourth of the address wires of the ADR. the inputs 22 of the channel number and mode register J, with the first outputs 32 of the input data register JL, the second inputs 42 of the command register 64 and the data input and output bus DATA, the third input 18 of the channel address and range register 6 is connected to the third register input 23 2 number of channels and modes, with a third input 43 of the command register £ and a recording wire WR and a second input p 33 of the input data register JL is connected to the read wire RD, while the outputs 19 of the channel address and range address register J1 are connected to the first inputs 121 of the range decoder 12 and to the first inputs 151 of the environment contact unit 15. the input 51 of the first sum circuit J5 and its channel address outputs IB are connected to the second inputs 72 of the channel address counter 7, the first input 71 of which is connected to the output 53 of the first sum circuit J3, the third input 73 to the third input 83 the input 92 of the product gateway 9 and the second output 34 of the input data register J and its channel address outputs 74 are connected to the third inputs 154 of the environmental interface unit 15, the second input 152 is connected to the output 133 of the timing circuits 13 whose third input 134 is connected with a first outlet 153 of the environmental contact unit 15, a second inlet 132 with a first inlet 14 1 of the flip-flop 14 and with the output 114 of the third summation circuit 11 and the first inputs 131 are connected to the outputs 123 of the range decoder 12, the second input 122 being connected to the third output 26 of the channel and mode register 2. 81 of the channel number counter 13, the second output 25 with the first input 61 of the second summing circuit 6, the fourth output 27 with the first input 101 of the second gate 10 and the fifth output 28 with the first input 91 of the first gate 67 whose output 93 is connected to the second input 112 of the third summation circuit 11, the first input 111 of which is connected to the output 103 of the second gate 10 with the second input 102 connected to the input terminal EXT, the second input 52 of the first summation circuit J connected to the output 84 of the channel counter J with the second input 142 flip-flop 14 and with second input 62 of second summing circuit 6, output 6 thereof 3 is connected to the second input 82 of the channel number counter 11, while the output 143 of the flip-flop 14 is coupled to the fourth input 155 of the environmental contact unit 15, the second outputs 156 are connected to the third inputs 35 of the input data register. is coupled to the third input 113 of the third summation circuit 11.

The operation of the control system according to the invention is as follows:

Before measuring a certain number of channels with analog signals, the channel address and range address register 6 is first recorded with the address signal at its first input 16 by a signal from the recording conductor WR at its third input 18 and the value of the address of the first measured channel and range from the data input and output In the same way, the value of the number of channels to be measured and the selected mode are recorded from the microcomputer bus 2 into the register 2 of the number of channels and modes.

This determines whether it is a repeated measurement with automatic start by external signals or a measurement with a long settling time. The recording of the address of the first measured channel applied to the second inputs 72 of the channel address counter J is performed at the end of the pulse transmitted by the recording output IA of the channel address register 1 and the ranges via the first summing circuit 11 to the first input 71 of the channel address counter 7. From its outputs 74, the address of the selected channel is applied to the environment contact unit 15 simultaneously with the magnitude of the range from the output 19 of the channel address and range register register 19. The range value is also applied to the first inputs 121 of the range decoder 12, to which the second input 122 is applied a measurement mode selection signal with a long settling time. The outputs 123 of the range decoder 12, which are connected to the first inputs 131 of the timer circuits 13, determine the value of the settling time of the analog signals at the multiplexer output of the interface 15, given the length of the start pulse of the analog-to-digital converter generated at the output 133 of the timer circuits 13. the timing circuits 13 are conditioned by an active analog-to-digital converter address signal at their third input 134, triggered by a start signal at the second input 132, which is output in triple way at the output 114 of the third summation circuits 11.

1. A program start signal applied to their third input 113 from output 21 of the command register 2, which is directly generated by the microcomputer.

2. Automatic start signal on their second input 112 from output 93 of the first product gate 2 · This signal is generated when the active signal on its first input 92 (Start automatic mode is selected) when the first byte of data from the analog-to-digital converter output inputs 35 of the input data register 2 by a microcomputer, where an active signal is generated at its output 34, which in addition increments the channel number counter f).

3. With an external start signal applied from the EXT terminal via the second product gate 10 to the first input 111 of the third summation circuit 11 with the active signal on the fourth output 27 of the register 2 of the number of channels and modes (Start external mode selected).

The number of measured channels is recorded by a microcomputer in the counter 2 of the number of channels. The channel number value is applied to its first inputs 81 and the recording signal is generated by the microcomputer at the second output 25 of the channel number and mode register 2 and via the second summation circuit 2 to the second input 82 of the channel number counter 2.

The decrementing signal at its third input 83 at zero channel number generates a transmission pulse at its output 84, passes through the first summation circuit 5 to the first input 71 of the channel and range counter 2 and records the first measured channel, the value of which is register 2 channel addresses and ranges.

This signal also passes through the second summation circuit 2 at the same time ^and records the program of the selected number of channels, which is retained in the channel number register 2, into the channel number counter 2. This restores the initial conditions and continues the measurement on the selected channels cyclically to the number of measurements specified by the program.

The start signal from output 194 of the third summation circuitry 11 sets the flip-flop 14 to a state where the signal at its output 143 brings the selected multiple sampling circuits in the environmental contact unit 15 into a memorized state. Subsequently, the selected number of channels of the multiple sampling circuits is automatically measured, and after the last channel has been measured, a signal is generated at the output 84 of the channel counter 2 which puts the flip-flop 14 into the idle state.

The connection of a fast measurement control system for multiplexed analog signals with different settling times can be used in microcomputer-controlled environment contact units designed for rapid measurement of analog signals, both static and dynamic.

Claims (1)

Control system for rapid measurement of multiplexed analog signals with different settling times characterized in that the first input (16) of the channel address register (1) is connected to the first of the address wires (ADR), the first input (21) of the register number (2) and modes of the second of the address wires (ADR), the first input (31) of the input data register (3) with the third of the address wires (ADR), and the first input (41) of the command register (4) with the fourth of the address wires (ADR) wherein the second inputs (17) of the channel address and range address register (1) are connected to the second inputs (22) of the channel and mode number register (2), to the first outputs (32) of the input data register (3), to the second inputs (42) a command register (4) and a data input and output bus (DATA), the third input (18) of the channel address and range register (1) being connected to the third input (23) of the channel and mode register (2); 43) command register (4) and with z the recording wire (WR) and the second input (33) of the input data register (3) are connected to the read wire (RD), while the outputs (19) of the channel address and range address register (1) are connected to the first decoder inputs (121). 12) of the ranges and with the first inputs (151) of the environmental contact unit (15), its recording output (1A) is connected to the first input (51) of the first summation circuit (5) and its channel address outputs (1B) are connected to the second inputs (72) of the channel address counter (7), the first input (71) of which is coupled to the output (53) of the first summation circuit (5), the third input (73) to the third input (83) of the channel counter (8) the second input (92) of the product gate (9) and the second output (34) of the input data register (3) and its channel address outputs (74) are connected to the third inputs (154) of the environment contact unit (15). 152) is connected to an output (133) of timing circuits (13), the third input (134) of which is s coupled to the first output (153) of the environmental contact unit (15), the second input (132) to the first input (141) of the flip-flop (14) and the output (114) of the third total circuit (11) and the first inputs (131) connected to the outputs (123) of the range decoder (12), the second input (122) of which is coupled to the third output (26) of the channel and mode register (2), the first of which (24) is coupled to the first counter inputs (81) (8) the number of channels, a second output (25) with a first input (61) of the second summation circuit (6), a fourth output (27) with a first input (101) of the second product gate (10) and a fifth output (28) with a first input (91) a first product gate (9), the output (93) of which is connected to the second input (112) of the third sum circuit (11), the first input (111) of which is connected to the output (103) of the second product gate (10) a second input (102) connected to an input terminal (EXT), the second input (52) of the first summation circuit (5) is connected to the output (84) of the channel counter (8) with a second input (142) of the flip-flop (14) and with a second input (62) of the second summing circuit (6) whose output (63) is connected to the second an input (82) of the channel counter (8), while the output (143) of the flip-flop (14) is connected to the fourth input (155) of the environmental contact unit (15), the second outputs (156) of which are connected to the third inputs (35). ) of the input data register (3) and the output (44) of the command register (4) is connected to the third input (113) of the third summation circuit (11).