CN2938573Y - Multi-channel analog-digital conversion device - Google Patents

Abstract

The utility model relates to a multi-channel analog-digital converter, comprising an analog signal input port, a control sampling circuit, and a channel switch selective circuit connected to the analog signal input port and the control sampling circuit, used to select analog signal input channel for multiple analog input signals and pass the analog signal selected through the control sampling circuit to complete analog-digital conversion. The utility model contains a channel switch selective circuit and a signal regulating circuit, and is able to perform analog-digital conversion by switching among multiple analog input signals automatically. In addition, the utility model also contains an amplifier circuit that makes full use of the fullness of the analog-digital converter, increasing the precision of analog-digital conversion.

Description

Multi-channel A/D conversion device

Technical field

The utility model relates to a kind of multi-channel A/D conversion device, especially a kind ofly crosses multichannel input and carries out the device of analog-to-digital conversion (A/D) at the polymorphic type analog passband signal.

Background technology

In microcomputer data acquisition or TT﹠C system, analog to digital conversion circuit is the important core component in analog input channel, its effect is that the physical quantity with reflection scene or procedure parameter real-time change converts the discrete digital code that computer can receive and discern to, is mainly used in the system based on single-chip microcomputer or computer.

At present, analog-digital commutator is very universal on the market, the research in many these fields all concentrates on how to improve analog-to-digital conversion accuracy, improve resolution and reduce quantization error, but ripe analog-to-digital conversion product all only is aimed at the digitized processing of single passage or single signal on these researchs and the market, exist the geographical position to disperse at a lot of scenes, intelligent building field, there is multiple analog signal types each position, and every type of signal has only the collection of 1 needs.Usually the analog-to-digital conversion for this multichannel polymorphic type analog input signal needs every type of signal is adopted different signal conditioning circuits respectively, causes the circuit complexity, the cost height.

The utility model content

The purpose of this utility model is the defective that can't handle simultaneously multichannel polymorphic type signal at the analog-digital commutator of existing single passage or single signal, a kind of multi-channel A/D conversion device has been proposed, can either carry out analog-to-digital conversion to multichannel polymorphic type signal, can improve analog-to-digital precision again.

For achieving the above object, the utility model provides a kind of multi-channel A/D conversion device, comprise input end of analog signal mouth, control sample circuit, also comprise with described input end of analog signal mouth and select circuit with the channel switch that the control sample circuit links to each other, be used for the multichannel analog signals of input is carried out the selection of analog signal input channel, and the multichannel analog signals after will selecting is finished analog-to-digital conversion by described control sample circuit.

In technique scheme, described channel switch selects circuit to comprise several simulation demultiplexers, and the analog signal with input links to each other respectively, is used for selecting a road of the analog signal imported to arrive described signal conditioning circuit.Can further include signal conditioning circuit, being arranged on described channel switch selects between circuit and the control sample circuit, be used for the input analog signal conversion is become voltage signal, and voltage signal is amplified, so that in range ability, utilize the full scale of control sample circuit.

Described signal conditioning circuit further comprises: reference voltage generating circuit, this reference voltage generating circuit comprises the simulation demultiplexer, the input of this first simulation demultiplexer links to each other with reference voltage, output links to each other with the inverting input of described voltage amplifier, when gating signal is thermal resistance signal or thermistor signal, for inverting input provides corresponding reference voltage.

The voltage signal that is converted to by the resistance signal of thermal resistance or thermistor is the resistance of thermal resistance or thermistor and the product of the electric current of flow through thermal resistance or thermistor.The resistance of thermal resistance or thermistor is along with variations in temperature, and the voltage after its conversion is respective change also, establishes in-phase input end voltage V+, and inverting input voltage is V_.The minimum value of difference that guarantees V+ and V_ is good more near 0 more, and greater than 0.

When the analog-to-digital conversion scope of modulus conversion chip was [0,10V], in order to improve analog-to-digital precision, the voltage after requiring to change was distributed in the whole interval of [0,10V] as far as possible, and will guarantee greater than 0.This is because the analog-to-digital conversion scope of control sample circuit is [0,10V], can not be negative voltage.So the output of instrument amplifier not should with the in-phase input end voltage inversion, should not be negative voltage.

Described signal conditioning circuit also comprises constant-current source circuit, links to each other with described simulation demultiplexer, is used for converting resistance signal to voltage signal when analog signal is resistance signal.

External resistance on described simulation demultiplexer with accurate resistance, when being used to measure thermal resistance or thermistor, the passage at the accurate resistance of gating place at first, the output end voltage of measuring voltage amplifier; Tested thermal resistance of gating or thermistor place passage then, and measure voltage amplifier output end voltage this moment.It is poor that the output end voltage that obtains is respectively done, to eliminate the internal resistance that described simulation multichannel output has been selected.

When measuring thermal resistance or thermistor, an external standard resistor (for example resistance is 500 ohm), measuring this standard resistor earlier is V at the voltage of the output of voltage amplifier ₅₀₀=(i* (500+2r))-V_) * K switches to the passage of tested thermal resistance or thermistor then, and (i* (Rt+2r)-V_) * K can obtain Vo-V to measure the voltage amplifier output end voltage Vo=of this moment ₅₀₀=K*i* (Rt-500).

It is poor that two output end voltages that obtain are done, and result and internal resistance r are irrelevant.At this moment, owing to K, i, Vo, V ₅₀₀All be known, just can obtain Rt=(Vo-V ₅₀₀)/(K*i)+500.Wherein K, i, V5 ₀₀Be definite value, Rt and (Vo-V ₅₀₀) linear/proportional relationship, we just can obtain Rt and (Vo-V according to the branch kilsyth basalt of Pt1000 or thermistor NTC20k ₅₀₀) the linear relationship table.Again according to (Vo-V ₅₀₀) digital quantity value after the conversion, just can obtain the value of Rt by tabling look-up, thereby obtain temperature value.

For (the Vo-V that does not have in the table ₅₀₀) digital quantity value because this table has been represented Rt and (Vo-V ₅₀₀) linear relationship, can calculate the value of tested thermal resistance or thermistor by the linearizing method of subregion, also just obtained temperature value.

Can also further increase voltage follower, it is arranged between described signal conditioning circuit and the control sample circuit, be used to carry out impedance matching, so that output voltage obtains buffering.

Based on technique scheme, the utility model has increased channel switch and has selected circuit and signal conditioning circuit between input end of analog signal mouth and control sample circuit, the multi-channel analog input signal that can automatically switch carries out analog-to-digital conversion, can utilize signal conditioning circuit to convert voltage signal to for polytype analog input signal, for analog input signal is thermal resistance PT1000 and thermistor NTC20K, can eliminate the influence of variable connector internal resistance.The utility model also adopts amplifying circuit to make full use of the full scale of analog-digital commutator in addition, thereby has improved analog-to-digital precision.

Below by drawings and Examples, the technical solution of the utility model is described in further detail.

Description of drawings

Fig. 1 is the structural representation of the utility model multi-channel A/D conversion device.

Fig. 2 is the another kind of structural representation of the utility model multi-channel A/D conversion device.

Fig. 3 is another structural representation of the utility model multi-channel A/D conversion device.

Fig. 4 is the concrete structure schematic diagram of channel selector switch circuit and signal conditioning circuit among Fig. 3, connects when wherein reference voltage generating circuit is used for the input resistance signal.

Fig. 5 is the another kind of concrete structure schematic diagram of signal conditioning circuit among Fig. 3, and wherein constant-current source circuit is connected when input thermal resistance or thermistor.

Fig. 6 is the structural representation of the specific embodiment of the utility model multi-channel A/D conversion device.

Fig. 7 is the structural representation of the equivalent electric circuit of Fig. 6 specific embodiment.

Embodiment

The utility model carries out channel selecting to the dissimilar analog input signal of multichannel, handle accordingly according to the type of input signal then, convert voltage signal to, in being amplified to range ability, can make full use of the full scale of analog to digital converter, last again by controlling the digital quantity value of sample circuit output voltage.

As shown in Figure 1, structural representation for the utility model multi-channel A/D conversion device, comprise input end of analog signal mouth 1, channel selector switch circuit 2 and control sample circuit 3, wherein channel selector switch circuit 2 links to each other with input end of analog signal mouth 1, receives the dissimilar analog signal of multichannel of input; Control sample circuit 3 links to each other with the output of channel selector switch circuit 2, converts the analog quantity of importing to digital quantity.The input analog signal types can comprise d. c. voltage signal, dc current signal, PT1000, the NTC20K etc. of different range.

As shown in Figure 2, another kind of structural representation for the utility model multi-channel A/D conversion device, with distinguish above be, between channel selector switch circuit 2 and control sample circuit 3, increased signal conditioning circuit 4 again, the input analog signal conversion can be become voltage signal, and voltage signal is amplified, so that in range ability, utilize the full scale of control sample circuit.

Fig. 3 is another structural representation of the utility model multi-channel A/D conversion device, on the basis of Fig. 2 circuit structure, increased voltage follower 5 again, be located between signal conditioning circuit 4 and the control sample circuit 3, can play the effect of impedance matching, can make the control sample circuit of back better work.

With reference to figure 4,5, two kinds of being respectively Fig. 3 are concrete, wherein channel selector switch circuit 2 is made of a plurality of simulation demultiplexers, in the present embodiment, adopt 8 tunnel input analog signals, therefore 21,22,23 pairs 8 tunnel inputs of three simulation demultiplexers analog signal can be set carry out gating, can use the mode of poll, the every paths of gating guarantees to have only one road analog input signal all the time by gating one by one, also can only carry out gating to a few passages according to specific requirement.

Comprise that in signal conditioning circuit 4 being used for will importing analog signal according to the type of the input analog signal of gating changes into voltage signal, and the voltage amplifier 41 that amplifies, the inverting input of voltage amplifier 41 links to each other with the output of reference voltage generating circuit or earth signal, and its normal phase input end selects the output of circuit 2 to link to each other with channel switch.Reference voltage generating circuit is linked to each other with a simulation demultiplexer 42 by reference voltage, when the input resistance signal, the inverting input of voltage amplifier 41 links to each other with the output of simulation demultiplexer 42, when gating signal is thermal resistance signal or thermistor signal, for inverting input provides corresponding reference voltage.

The voltage signal that is converted to by the resistance signal of thermal resistance or thermistor is the resistance of thermal resistance or thermistor and the product of the electric current of flow through thermal resistance or thermistor.The resistance of thermal resistance or thermistor is along with variations in temperature, and the voltage after its conversion is respective change also, establishes in-phase input end voltage V+, and inverting input voltage is V_.The minimum value of difference that guarantees V+ and V_ is good more near 0 more, and greater than 0.

When the analog-to-digital conversion scope of modulus conversion chip was [0,10V], in order to improve analog-to-digital precision, the voltage after requiring to change was distributed in the whole interval of [0,10V] as far as possible, and will guarantee greater than 0.This is because the analog-to-digital conversion scope of control sample circuit is [0,10V], can not be negative voltage.So the output of instrument amplifier not should with the in-phase input end voltage inversion, should not be negative voltage.

Signal conditioning circuit 4 also comprises constant-current source circuit 43, links to each other with simulation demultiplexer 42, when analog signal is thermal resistance signal or thermistor signal, for thermal resistance or thermistor provide power supply, so that described analog signal conversion is a voltage signal.External resistance with accurate resistance on the simulation demultiplexer can be measured respectively the output end voltage of connecting the described voltage amplifier in back, and the output end voltage that will obtain respectively do poor, to eliminate the internal resistance of described simulation demultiplexer.

When measuring thermal resistance or thermistor, an external standard resistor (for example resistance is 500 ohm), measuring this standard resistor earlier is V at the voltage of the output of voltage amplifier ₅₀₀=(i* (500+2r))-V_) * K switches to the passage of tested thermal resistance or thermistor then, and (i* (Rt+2r)-V_) * K can obtain Vo-V to measure the voltage amplifier output end voltage Vo=of this moment ₅₀₀=K*i* (Rt-500).

It is poor that two output end voltages that obtain are done, and result and internal resistance r are irrelevant.At this moment, owing to K, i, Vo, V ₅₀₀All be known, just can obtain Rt=(Vo-V ₅₀₀)/(K*i)+500.Wherein K, i, V ₅₀₀Be definite value, Rt and (Vo-V ₅₀₀) linear/proportional relationship, we just can obtain Rt and (Vo-V according to the branch kilsyth basalt of Pt1000 or thermistor NTC20k ₅₀₀) the linear relationship table.Again according to (Vo-V ₅₀₀) digital quantity value after the conversion, just can obtain the value of Rt by tabling look-up, thereby obtain temperature value.

For (the Vo-V that does not have in the table ₅₀₀) digital quantity value because this table has been represented Rt and (Vo-V ₅₀₀) linear relationship, can calculate the value of tested thermal resistance or thermistor by the linearizing method of subregion, also just obtained temperature value.

Can send out big multiple by what adjust amplifying circuit, output voltage is dropped in the predetermined scope, for example output area is the voltage of 0～10V, thereby utilizes the full scale of controlling sample circuit 3 fully, and so-called full scale is the maximum of range.

More than provided the structure explanation of several functional modules of the present utility model, next a specific embodiment of the present utility model, as shown in Figure 6, structural representation for the specific embodiment of the utility model multi-channel A/D conversion device, input signal end TG2-4 links to each other with the X0-2 of simulation demultiplexer U1 respectively, input signal end TG5-7 links to each other with the X0-2 of simulation demultiplexer U3 respectively, input signal end TG8, TG9 respectively with the X0 of simulation demultiplexer U5, X1 links to each other, U1, U3, the X output of U5 links to each other U1 with the normal phase input end of voltage amplifier U4, U3, U5 is at a synchronization gating one tunnel.

In order to overcome the internal resistance of U1, U3, U5, can insert resistance R 1, R2, R3 at each X3 port of simulating demultiplexer.Simulation demultiplexer U1, U3, U5 have formed the simulation multiplexer circuit jointly.Only provide 3 simulation demultiplexers in the present embodiment, but the utility model can be selected more or less simulation demultiplexer according to the number of input channel.

Voltage amplifier U4 is the part in the signal conditioning circuit, and its effect is the voltage signal that amplifies input, so that the controlling of sampling circuit can work in full scale, thereby improves conversion accuracy.

When input signal is thermal resistance signal or thermistor signal, need convert thermal resistance signal or thermistor signal to voltage signal, can amplify, therefore add reference voltage generating circuit in signal conditioning circuit, promptly simulate demultiplexer U2, the Y0 of U2, Y1 link to each other with reference voltage+2.5V by resistance R 4, R5 respectively, wherein the R4 correspondence thermal resistance signal, the R5 correspondence thermistor signal, when the gating unlike signal, and the also loop of gating R4 and R5 correspondence.

Signal conditioning circuit also comprises constant-current source circuit, promptly is made of three end adjustable current source D1, variable resistor VR1, resistance R 9, resistance R 10, diode D2, and constant-current source circuit is connected with X0, the X1 port of U2, and here U2 is as the switch of constant-current source.Simulation demultiplexer U6 is as the electronic switch of the different resistance of gating, and X0, Y0, Y1 port link to each other with resistance R 8, R7, R6.

In order to control the multiplication factor of voltage, can insert simulation demultiplexer U8 at the control end of voltage amplifier, in the circuit of this simulation demultiplexer U8 and voltage amplifier control end composition, insert resistance R 14, R15, R16, size according to resistance is calculated multiplication factor, and the different resistance of being imported by A, B port of signal gating adapts to different input signals.

The output of voltage amplifier U4 links to each other with the normal phase input end of voltage amplifier U7, and voltage amplifier U7 plays the effect of impedance matching as voltage follower, and its output is connected with control sample circuit U9.Control sample circuit U9 carries out analog-to-digital conversion to the voltage signal after changing.

As shown in Figure 7, be the structural representation of the equivalent electric circuit of Fig. 6 specific embodiment, wherein simulating demultiplexer U2 is switch S 1 and S2, is respectively constant-current source circuit and reference voltage generating circuit gating and cut-out; Switch S 4 is provided by simulation demultiplexer U6, and resistance R 4 and R6 connect when input is respectively thermal resistance signal or thermocouple resistance, and does difference to eliminate the influence of internal resistance when computing, specifically can narrate referring to the front.

Simulation demultiplexer U1, U3, U5 form switch S 4 and S5 jointly, can only gating one road signal in a moment, Rt is a measured resistance, can be in order to eliminate the standard resistor with accurate resistance of variable connector internal resistance, perhaps thermal resistance or thermistor.Based on above-mentioned multi-channel A/D conversion device, handling process is: organize analog signal admission passage switch more and select circuit, select the circuit gating to select the passage of every group of analog signal correspondence one by one by channel switch; After channel switch was selected the analog signal entering signal modulate circuit of circuit gating, described signal conditioning circuit became voltage signal with described analog signal conversion; Voltage signal enters the control sample circuit and carries out analog-to-digital conversion, the digital quantity value of output voltage.

Select the analog signal entering signal modulate circuit of circuit gating when channel switch after, described signal conditioning circuit is a voltage signal in the preset range with described analog signal conversion, to make full use of the full scale of control sample circuit.

When the analog signal of gating was resistance signal, reference voltage generating circuit 42 was switched on, and simulation demultiplexer 42 output constant current signals convert resistance signal to voltage signal.Voltage amplifier 41 can be selected instrument amplifier for use, establishes in-phase input end voltage V+, and inverting input voltage is V_.

When the analog-to-digital conversion scope of modulus conversion chip was [0,10V], in order to improve analog-to-digital precision, the voltage after requiring to change was distributed in the whole interval of [0,10V] as far as possible, and will guarantee greater than 0.This be because the output of instrument amplifier can not with the in-phase input end voltage inversion, can not be negative voltage.

At first passage is switched on the standard resistor, standard resistor is elected 500 ohm as, and voltage amplifier 41 is output as:

V ₅₀₀＝(i*(500+2r))-V_)*K；

Switch on the analog input signal Rt, voltage amplifier 41 is output as V again _o=(i* (Rt+2r)-V_) * K,

Can derive Rt=(V _o-V ₅₀₀)/(K*i)+500, i.e. V _o-V ₅₀₀=K*i* (Rt-500),

In the formula, K is a multiplication factor, and V_ is a reverse input end voltage, and r is the analog switch internal resistance, and 500 ohm is canonical reference resistance, and i is the constant-current source electric current, and Rt is the input resistance signal.Wherein, when the selection of reference potential V_ will guarantee that Rt gets stated range minimum, the output of voltage amplifier 41 was greater than zero, and as far as possible near 0; When Rt got the scope maximum, the output of voltage amplifier 41 was not more than analog-to-digital full scale.

When the analog signal of gating is thermistor or thermal resistance signal, the work of constant-current source circuit gating, similar to input resistance Signal Processing mode, convert thermistor or thermal resistance signal to voltage signal, and be input to the in-phase input end of voltage amplifier; Simultaneously, reference voltage is input to the inverting input of voltage amplifier through simulation demultiplexer gating.

Obviously, two output end voltages are poor result and internal resistance r is irrelevant, wherein K, i, V ₅₀₀Be definite value, Rt and (Vo-V ₅₀₀) linear/proportional relationship, we just can obtain Rt and (Vo-V according to the branch kilsyth basalt of Pt1000 or thermistor NTC20k ₅₀₀) the linear relationship table.Again according to (Vo-V ₅₀₀) digital quantity value after the conversion, just can obtain the value of Rt by tabling look-up, thereby obtain temperature value.

For (the Vo-V that does not have in the table ₅₀₀) digital quantity value because this table has been represented Rt and (Vo-V ₅₀₀) linear relationship, can calculate the value of tested thermal resistance or thermistor by the linearizing method of subregion, also just obtained temperature value.

When channel switch selects the analog signal of circuit gating to be voltage signal, the input that the simulation demultiplexer turn-offs constant-current source circuit, the reverse inter-input-ing ending grounding signal of voltage amplifier.

When the analog signal of gathering is 4～20mA current signal, by selecting circuit to connect 250 ohm accurate resistance, convert the voltage signal of 1～5V at channel switch, be input to the in-phase input end of voltage amplifier again.

Can also simulate ports such as demultiplexer, amplifying circuit, reference voltage generating circuit to each by CPU and control, can realize that the break-make of each simulation demultiplexer is selected, and the selection of amplifying circuit form and multiplication factor.

Should be noted that at last: above embodiment only is not intended to limit in order to the explanation the technical solution of the utility model; Although with reference to preferred embodiment the utility model is had been described in detail, those of ordinary skill in the field are to be understood that: still can make amendment or the part technical characterictic is equal to replacement embodiment of the present utility model; And not breaking away from the spirit of technical solutions of the utility model, it all should be encompassed in the middle of the technical scheme scope that the utility model asks for protection.

Claims (7)

1, a kind of multi-channel A/D conversion device, comprise input end of analog signal mouth, control sample circuit, it is characterized in that, comprise that also the multichannel analog signals that is used for input carries out the selection of analog signal input channel, and the road analog signal that will select finishes analog-to-digital channel switch by described control sample circuit and selects circuit, and this channel switch selects circuit with described input end of analog signal mouth with control sample circuit and link to each other.

2, multi-channel A/D conversion device according to claim 1, it is characterized in that, also comprise and be used for the input analog signal conversion is become voltage signal, and voltage signal amplified, so that in range ability, utilize the signal conditioning circuit of the full scale of control sample circuit, be arranged on described channel switch and select between circuit and the control sample circuit.

3, multi-channel A/D conversion device according to claim 2 is characterized in that, also comprises being used to carry out impedance matching, so that the voltage follower that output voltage obtains cushioning is arranged between described signal conditioning circuit and the control sample circuit.

4, multi-channel A/D conversion device according to claim 3, it is characterized in that, described channel switch selects circuit to comprise the road simulation demultiplexer to described signal conditioning circuit that several are used for selecting the analog signal imported, and the analog signal with input links to each other respectively.

5, multi-channel A/D conversion device according to claim 3, it is characterized in that, described signal conditioning circuit further comprises: be used for will importing analog signal according to the type of the input analog signal of gating and change into voltage signal, and amplify described voltage signal, so that in range ability, utilize the voltage amplifier of the full scale of control sample circuit, the normal phase input end of this voltage amplifier selects the output of circuit to link to each other with described channel switch, and inverting input links to each other with earth signal by resistance.

6, multi-channel A/D conversion device according to claim 5, it is characterized in that, described signal conditioning circuit further comprises: reference voltage generating circuit, this reference voltage generating circuit comprises and being used for when gating signal is thermal resistance signal or thermistor signal, the simulation demultiplexer of corresponding reference voltage is provided for inverting input, the input of this first simulation demultiplexer links to each other with reference voltage, and output links to each other with the inverting input of described voltage amplifier.

7, multi-channel A/D conversion device according to claim 6, it is characterized in that, described signal conditioning circuit also comprises and being used for when analog signal is resistance signal, converts resistance signal the constant-current source circuit of voltage signal to, links to each other with described simulation demultiplexer.

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