CN101221192A - Full-automatic control system used for chemiluminescence immunity analysis - Google Patents

Abstract

A fully automatic control system used for chemiluminescence immunoassay pertains to the field of chemiluminescence immunoassay. The system includes four parts, namely a main control system, a power system, a transmitting system and electromechanical equipment. The main control system is connected with the transmitting system; the transmitting system is connected with the electromechanical equipment, and the power system supplies power to the main control system and the transmitting system. The system is formed by the automation of all the steps of chemiluminescence immunoassay such as sample adding, reagent adding, incubation, bead adding, incubation, magnetic separation and cleaning, substrate adding, light measurement, etc. A domestic full automatic chemiluminescence immunoassay instrument can be formed after matching with the domestic reagent and mechanism; furthermore, the invention is characterized by low cost and strong function, and can also greatly promote the development of the field of chemiluminescence immunoassay instruments.

Description

A kind of full-automatic control system that is used for chemiluminescence immune assay

Technical field

The invention belongs to chemical illumination immunity analysis instrument device field, a kind of full-automatic control system that is used for chemiluminescence immune assay is provided especially.

Technical background

Chemiluminescence immune assay is the analytic process of a complexity, and it is mainly by adding sample (abbreviation adds sample) in reaction vessel, add reagent and in reaction vessel, (add reagent), temperature of charge constant (incubation) in the control reaction vessel, add magnetic bead and in reaction vessel, (add magnetic bead), fluid temperature constant (incubation) in the control reaction vessel, reactant is carried out magnetic separation and cleaning (magnetic separates and cleans), add substrate and in reaction vessel, (add substrate), the operation of a series of transmission reaction vessels of measuring reactant luminous quantity steps such as (photometries) and these steps being linked together is formed.Initial analytical approach is that the various monomer instruments of artificial use carry out these steps one by one to finish analysis, afterwards, has occurred using all or part of instrument combined of control system with these steps, is called full-automatic instrument or accurate robot.At present, the full-automatic instrument of chemiluminescence immune assay is offshore company monopolization substantially, and domestic have only corresponding accurate robot, and the development full-automatic instrument has become a domestic megatrend.Patent of the present invention provides a kind of full-automatic control system of chemiluminescence immune assay, behind this control system coupling domestic reagent and the ray machine electricity equipment, can form homemade full-automatic chemical luminescence immunoassay instrument, have the advantages that function is strong, cost is low, can promote the development in chemical illumination immunity analysis instrument device field greatly.

Summary of the invention

Purpose of the present invention is to provide a kind of full-automatic control system that is used for chemiluminescence immune assay.Can realize the Automatic Control of chemiluminescence immune assay, be about to the robotization in steps of chemiluminescence immune assay.

The present invention includes master control system, power-supply system, transmitting system and four parts of electromechanical equipment, master control system links to each other with transmitting system, and transmitting system links to each other with electromechanical equipment, and power-supply system is master control system and transmitting system power supply.

Control system of the present invention as shown in Figure 1, wherein Mechatronic Systems as shown in Figure 2, transmitting system as shown in Figure 3, temperature control/light measuring system as shown in Figure 4, the barcode machine system as shown in Figure 5, power-supply system as shown in Figure 6.

Master control system, power-supply system, transmitting system and four parts of Mechatronic Systems are formed.

Master control system links to each other with transmitting system, and transmitting system links to each other with Mechatronic Systems.

Power-supply system is responsible for other part power supplies to control system, and voltage has 220V to exchange 5/ ± 15V direct current, 24V direct current.

Master control system mainly comprises parts such as Electric Machine Control, zero spacing detection, universal I, analog acquisition.

Transmission circuit E1 adds sample driving/feedback circuit, and control electromechanical equipment M1 finishes and adds the sample step;

Transmission circuit E2 adds reagent/magnetic bead driving/feedback circuit, and control electromechanical equipment M2 finishes the step that adds reagent and add magnetic bead;

Transmission circuit E3 is that magnetic separates and cleaning driving/feedback circuit, and control electromechanical equipment M3 finishes the step that magnetic separates and cleans;

Transmission circuit E4 adds substrate driving/feedback circuit, and control electromechanical equipment M4 finishes the step that adds substrate;

Transmission circuit E5 transmits reaction vessel driving/feedback circuit, and control electromechanical equipment M5 finishes the operation that transmits reaction vessel;

Transmission circuit E6 vacuumizes and waste liquid driving/feedback circuit, and control electromechanical equipment M6 finishes the step that vacuumizes with waste liquid;

Transmission circuit E7 is the gentle volt circuit of induction liquid measure, and control electricity equipment M7 finishes the measurement of liquid measure and air pressure, for operation provides status information;

Control circuit E8 is a temperature control/light measuring system, and it is the general name of temperature-control circuit and flash ranging circuit, controls hot optoelectronic device M8 and finishes incubation step and flash ranging step;

The barcode machine system is the bar code scan circuit of sample and reagent, and the information of sample and reagent is provided.

Master control system comprises interface CN23, CN24, CN18, CN16, CN19, CN20, CN15, CN12, CN1, CN6, CN7, CN3, power end.Transmitting system comprises transmission circuit E1, E2, E3, E4, E5, E6, E7, control system E8, barcode machine system.Mechatronic Systems comprises electromechanical equipment M1, M2, M3, M4, M5, M6, power electricity equipment M7, hot optoelectronic device M8;

Transmitting system comprises transmission circuit E1, E2, E3, E4, E5, E6, E7, control system E8, barcode machine system;

Transmission circuit E1 comprises driver D1, D2, D3, D4, zero limit signal transmission circuit P1, universal I signal transmitting circuit O1;

Transmission circuit E2 comprises driver D5, D6, D7, D8, zero limit signal transmission circuit P2, universal I signal transmitting circuit O2;

Transmission circuit E3 comprises driver D9 and D13, zero limit signal transmission circuit P3, universal I signal transmitting circuit O3;

Transmission circuit E4 comprises driver D10, zero limit signal transmission circuit P4 and universal I signal transmitting circuit O4;

Transmission circuit E5 comprises driver D11, D12, D14 and D15, zero limit signal transmission circuit P5, universal I signal transmitting circuit O5;

Transmission circuit E6 comprises driving circuit D16, universal I signal transmitting circuit O6;

Transmission circuit E7 is the gentle volt circuit of induced liquid weight.

Driver D1, D2, D3, D4, D5, D6, D7, D8, D9, D10, D11, D12, D13, D14, D15, driving circuit D16 comprise signal input part, power take-off and power end respectively;

Zero limit signal transmission circuit P1, P2, P3, P4, P5, P6, universal I signal transmitting circuit O1, O2, O3, O4, O5, O6 comprise signal input part, signal output part, power end respectively;

Transmission circuit E7 comprises signal input part, signal output part and power end;

The temperature control system of control system E8 comprises main serial ports, auxilliary serial ports, signal input part, power take-off, power end.The light measuring system of control system E8 comprises serial ports, signal input part, power end;

The barcode machine T1 of barcode machine system and T2 comprise main serial ports, auxilliary serial ports, signal input part, power end.

Mechatronic Systems comprises electromechanical equipment M1, M2, M3, M4, M5, M6, power electricity equipment M7 and hot optoelectronic device M8;

Electromechanical equipment M1 comprises motor Y1, Y2, Y3, Y4, zero limit switch group F1 and liquid level inductive switch group S1;

Electromechanical equipment M2 comprises motor Y5, Y6, Y7, Y8, zero limit switch group F2 and liquid level inductive switch group S2;

Electromechanical equipment group M3 comprises motor Y9 and Y13, zero limit switch group F3 and electromagnetic valve group;

Electromechanical equipment M4 comprises motor Y10 and zero limit switch group F4;

Electromechanical equipment M5 comprises motor Y11, Y12, Y14, Y15, zero limit switch group F4 and code-disc switch;

Electromechanical equipment group M6 comprises motor Y16, relay and Level Detection switches set;

Power electricity equipment group M7 comprises pressure transducer L1, L2, L3 and baroceptor;

Hot optoelectronic device group M8 comprises thermistor Z1, Z2, Z3, heating film silk H1, H2, H3 and photomultiplier.

The interface CN23 of master control system links to each other with driver D1, the D2 of transmission circuit E1, the signal input part of D3, D4 respectively, and the power take-off of driver D1, D2, D3, D4 links to each other with motor Y1, Y2, Y3, the Y4 of electromechanical equipment M1 respectively;

The interface CN24 of master control system links to each other with driver D5, the D6 of transmission circuit E2, the signal input part of D7, D8 respectively, and the power take-off of driver D5, D6, D7, D8 links to each other with motor Y5, Y6, Y7, the Y8 of electromechanical equipment M2 respectively;

The interface CN18 of master control system links to each other with the signal input part of the driver D9 of transmission circuit E3, and the motor Y9 of the power take-off of driver D9 and electromechanical equipment M3 links to each other;

The interface CN16 of master control system links to each other with the signal input part of the driver D13 of transmission circuit E3, and the motor Y13 of the power take-off of driver D13 and electromechanical equipment M3 links to each other;

The interface CN19 of master control system links to each other with the signal input part of the driver D10 of transmission circuit E4, and the motor Y10 of the power take-off of driver D10 and electromechanical equipment M4 links to each other;

The interface CN20 of master control system links to each other with the signal input part of the driver D11 of transmission circuit E5, and the motor Y11 of the power take-off of driver D11 and electromechanical equipment M5 links to each other;

The interface CN15 of master control system links to each other with the signal input part of the driver D12 of transmission circuit E5, and the motor Y12 of the power take-off of driver D12 and electromechanical equipment M5 links to each other;

The interface CN12 of master control system and the signal output part of following circuit link to each other: the zero limit signal transmission circuit P1 of transmission circuit E1, the zero limit signal transmission circuit P2 of transmission circuit E2, the zero limit signal transmission circuit P3 of transmission circuit E3, the zero limit signal transmission circuit P4 of transmission circuit E4, the zero limit signal transmission circuit P5 of transmission circuit E5, the zero limit signal transmission circuit P6 of transmission circuit E6, the signal input part of these circuit links to each other with following equipment respectively: the zero limit switch group F1 of electromechanical equipment M1, the zero limit switch group F2 of electromechanical equipment M2, the zero limit switch group F3 of electromechanical equipment M3, the zero limit switch group F4 of electromechanical equipment M4, the zero limit switch group F5 of electromechanical equipment M5, the zero limit switch group F6 of electromechanical equipment M6;

The interface CN1 of master control system and the signal output part of following circuit link to each other: the universal I signal transmitting circuit O1 of transmission circuit E1, the universal I signal transmitting circuit O2 of transmission circuit E2, the universal I signal transmitting circuit O3 of transmission circuit E3, the universal I signal transmitting circuit O4 of transmission circuit E4, the universal I signal transmitting circuit O5 of transmission circuit E5, the universal I signal transmitting circuit O6 of transmission circuit E6, driver D14, D15, driving circuit D16, the signal input part of foregoing circuit link to each other with following equipment respectively: the liquid level inductive switch group S1 of electromechanical equipment M1, the liquid level inductive switch group S2 of electromechanical equipment M2, the electromagnetic valve group of electromechanical equipment M3, the code-disc switch of electromechanical equipment M5, relay, the Level Detection switches set, motor Y14 and Y15, the relay of electromechanical equipment M6, Level Detection switches set and motor Y16;

The interface CN6 of master control system links to each other with control system E8.E8 is made up of temperature control system and light measuring system.Temperature control system comprises main serial ports and auxilliary serial ports, and light measuring system comprises serial ports.The main serial ports of the CN6 of master control system and temperature control system links to each other, and the auxilliary serial ports of temperature control system and the serial ports of light measuring system link to each other; Thermistor Z1, the Z2 of temperature control system and hot optoelectronic device M8, Z3, heating film silk H1, H2, H3 link to each other; Light measuring system links to each other with the photomultiplier of hot optoelectronic device M8;

The interface CN7 of master control system links to each other with the barcode machine system.The barcode machine system comprises barcode machine T1 and T2.T1 and T2 comprise main serial ports and auxilliary serial ports.The main serial ports of the CN7 of master control system and barcode machine T1 links to each other, and the auxilliary serial ports of barcode machine T1 links to each other with the main serial ports of barcode machine T2;

The interface CN3 of master control system links to each other with the signal output part of transmission circuit E7, and the signal input part of transmission circuit E7 links to each other with power electricity equipment M7.

Power-supply system is by switch and fuse, wave filter, 24V direct supply, and 5/ ± 15V direct supply is formed;

The 220V alternating current is connected to an end of switch and fuse, the other end of switch and fuse is connected to the input end of wave filter, the output terminal of wave filter divides three the tunnel, one the tunnel is directly connected to the power end of master control system, one the road is connected to the input end of 24V direct supply, and one the road is connected to the input end of 5/ ± 15V direct supply;

The output demultiplexing of 24V direct supply is connected to the power end of following circuit: driver D1, D2, D3, D4, D5, D6, D7, D8, D9, D10, D11, D12, D13, D14, D15, D16, zero limit signal transmission circuit P1, P2, P3, P4, P5, P6, universal I signal transmitting circuit O1, O2, O3, O4, O5, O6, temperature control system;

The 5V output of 5/ ± 15V direct supply is connected to zero limit signal transmission circuit P1, P2, P3, P4, P5, P6, universal I signal transmitting circuit O1, O2, O3, O4, O5, O6, temperature control system, light measuring system, transmission circuit E7;

5/ ± 15V direct supply ± 15V output is connected to transmission circuit E7.

The invention has the advantages that, Overall Steps with chemiluminescence immune assay, as add sample (serum), add reagent, incubation, add magnetic bead, incubation, magnetic separates and clean, add the system that robotizations such as substrate, photometry form, after coupling domestic reagent and mechanism, can form homemade full automatic chemical illumination immunity analysis instrument, have the advantages that cost is low, function is strong, can promote the development in chemical illumination immunity analysis instrument device field greatly.

Description of drawings

Fig. 1 control system block diagram.

Fig. 2 Mechatronic Systems.

Fig. 3 transmitting system.

Fig. 4 temperature control/light measuring system.

Fig. 5 barcode machine system.

Fig. 6 power-supply system.

A kind of implementation of Fig. 7 control system.

Embodiment

A kind of concrete enforcement of patent of the present invention as shown in Figure 7.

The whole control system is encapsulated in the switch board of a three-decker, and bottom is a master control system, and the upper strata is a transmitting system, and the middle layer is a power-supply system.

(1) master control system

Master control system is selected high admittedly 6U structure Embedded Motion for use, and its main interface is as described in the summary of the invention.

(2) power-supply system

24V direct supply in the power-supply system is selected Mean Well SE-600-24 for use, the 5/+-15VDC power supply is selected MeanWell RT-50C for use, innovation B2KL-10AB in north during wave filter is selected for use, fuse select the long 10A of guarantor electric current fuse for use, and switch is selected CHNT DZ47-60 C10 for use.

(3) transmitting system

Driver D1, D2, D3, D4, D5, D6, D7, D8, D10 select syntron SH20403C for use, and driver D9, D13 select Maxon Epos 24/5 for use, and driver D14, D15 select Yi Shan ED-Y1030A-24 for use.

Zero limit signal transmission circuit P1, P2, P3, P4, P5, P6 are called zero limit signal by one and become the circuit board realization of sending plate.

Universal I signal transmitting circuit O1, O2, O3, O4, O5, O6 and driving circuit D16 are realized by a circuit board that is called universal I signal transmitting plate.

Transmission circuit E7 is realized by a circuit board that is called the analog acquisition plate.

The temperature control system of control system E8 and light measuring system realize that by two circuit boards the former is called temperature control panel respectively, and the latter is called the flash ranging plate.

The barcode machine T1 of barcode machine system and T2 adopt Microscan MS-3 laser scanner.

(4) Mechatronic Systems

Motor Y1, Y5 select syntron 56BYG250D-BASSBL-0241 for use;

Motor Y2, Y3, Y6, Y7, Y4, Y8, Y9, Y10 select syntron 56BYG250B-BASSBL-0241 for use;

Motor Y9, Y13 select Maxon Re36-24V 118798 for use;

Motor Y14, Y15 select Yi Shan 36SYK0601.C for use.

Switch in the zero limit switch group is selected OPTEK OPB870N55 for use

Switch in the liquid level inductive switch group adopts customization needle tube shape contact witch

Solenoid valve in the electromagnetic valve group is selected sirai Z030A V24 for use

Relay is selected QIANJI JQX-13F for use

Switch in the Level Detection switches set adopts sharp FS-09A of summer

Pressure transducer is selected space Xiang AAL-130-30kg for use

Baroceptor is selected Freescale MPX2200 for use

Thermistor is selected the inferior PT100 thermal resistance of ring for use

The heating film silk adopts grand space customised films silk

Photomultiplier is selected shore pine H7155-20 for use

Claims (4)

1. automatic control system that is used for chemiluminescence immune assay, comprise master control system, power-supply system, transmitting system and four parts of Mechatronic Systems, it is characterized in that master control system comprises interface CN23, CN24, CN18, CN16, CN19, CN20, CN15, CN12, CN1, CN6, CN7, CN3, power end; Transmitting system comprises transmission circuit E1, E2, E3, E4, E5, E6, E7, control system E8, barcode machine system; Mechatronic Systems comprises electromechanical equipment M1, M2, M3, M4, M5, M6, power electricity equipment M7, hot optoelectronic device M8;

The interface CN23 of master control system links to each other with driver D1, the D2 of transmission circuit E1, the signal input part of D3, D4 respectively, and the power take-off of driver D1, D2, D3, D4 links to each other with motor Y1, Y2, Y3, the Y4 of electromechanical equipment M1 respectively;

The interface CN24 of master control system links to each other with driver D5, the D6 of transmission circuit E2, the signal input part of D7, D8 respectively, and the power take-off of driver D5, D6, D7, D8 links to each other with motor Y5, Y6, Y7, the Y8 of electromechanical equipment M2 respectively;

The interface CN18 of master control system links to each other with the signal input part of the driver D9 of transmission circuit E3, and the motor Y9 of the power take-off of driver D9 and electromechanical equipment M3 links to each other;

The interface CN16 of master control system links to each other with the signal input part of the driver D13 of transmission circuit E3, and the motor Y13 of the power take-off of driver D13 and electromechanical equipment M3 links to each other;

The interface CN19 of master control system links to each other with the signal input part of the driver D10 of transmission circuit E4, and the motor Y10 of the power take-off of driver D10 and electromechanical equipment M4 links to each other;

The interface CN20 of master control system links to each other with the signal input part of the driver D11 of transmission circuit E5, and the motor Y11 of the power take-off of driver D11 and electromechanical equipment M5 links to each other;

The interface CN15 of master control system links to each other with the signal input part of the driver D12 of transmission circuit E5, and the motor Y12 of the power take-off of driver D12 and electromechanical equipment M5 links to each other;

The interface CN12 of master control system and the signal output part of following circuit link to each other: the zero limit signal transmission circuit P1 of transmission circuit E1, the zero limit signal transmission circuit P2 of transmission circuit E2, the zero limit signal transmission circuit P3 of transmission circuit E3, the zero limit signal transmission circuit P4 of transmission circuit E4, the zero limit signal transmission circuit P5 of transmission circuit E5, the zero limit signal transmission circuit P6 of transmission circuit E6, the signal input part of these circuit links to each other with following equipment respectively: the zero limit switch group F1 of electromechanical equipment M1, the zero limit switch group F2 of electromechanical equipment M2, the zero limit switch group F3 of electromechanical equipment M3, the zero limit switch group F4 of electromechanical equipment M4, the zero limit switch group F5 of electromechanical equipment M5, the zero limit switch group F6 of electromechanical equipment M6;

The interface CN1 of master control system and the signal output part of following circuit link to each other: the universal I signal transmitting circuit O1 of transmission circuit E1, the universal I signal transmitting circuit O2 of transmission circuit E2, the universal I signal transmitting circuit O3 of transmission circuit E3, the universal I signal transmitting circuit O4 of transmission circuit E4, the universal I signal transmitting circuit O5 of transmission circuit E5, the universal I signal transmitting circuit O6 of transmission circuit E6, driver D14, D15, driving circuit D16, the signal input part of foregoing circuit link to each other with following equipment respectively: the liquid level inductive switch group S1 of electromechanical equipment M1, the liquid level inductive switch group S2 of electromechanical equipment M2, the electromagnetic valve group of electromechanical equipment M3, the code-disc switch of electromechanical equipment M5, relay, the Level Detection switches set, motor Y14 and Y15, the relay of electromechanical equipment M6, Level Detection switches set and motor Y16;

The interface CN6 of master control system links to each other with control system E8.E8 is made up of temperature control system and light measuring system.Temperature control system comprises main serial ports and auxilliary serial ports, and light measuring system comprises serial ports.The main serial ports of the CN6 of master control system and temperature control system links to each other, and the auxilliary serial ports of temperature control system and the serial ports of light measuring system link to each other; Thermistor Z1, the Z2 of temperature control system and hot optoelectronic device M8, Z3, heating film silk H1, H2, H3 link to each other; Light measuring system links to each other with the photomultiplier of hot optoelectronic device M8;

The interface CN7 of master control system links to each other with the barcode machine system.The barcode machine system comprises barcode machine T1 and T2.T1 and T2 comprise main serial ports and auxilliary serial ports.The main serial ports of the CN7 of master control system and barcode machine T1 links to each other, and the auxilliary serial ports of barcode machine T1 links to each other with the main serial ports of barcode machine T2;

The interface CN3 of master control system links to each other with the signal output part of transmission circuit E7, and the signal input part of transmission circuit E7 links to each other with power electricity equipment M7.

2. as right 1 described automatic control system, it is characterized in that transmitting system comprises transmission circuit E1, E2, E3, E4, E5, E6, E7, control system E8, barcode machine system;

Transmission circuit E1 comprises driver D1, D2, D3, D4, zero limit signal transmission circuit P1, universal I signal transmitting circuit O1;

Transmission circuit E2 comprises driver D5, D6, D7, D8, zero limit signal transmission circuit P2, universal I signal transmitting circuit O2;

Transmission circuit E3 comprises driver D9 and D13, zero limit signal transmission circuit P3, universal I signal transmitting circuit O3;

Transmission circuit E4 comprises driver D10, zero limit signal transmission circuit P4 and universal I signal transmitting circuit O4;

Transmission circuit E5 comprises driver D11, D12, D14 and D15, zero limit signal transmission circuit P5, universal I signal transmitting circuit O5;

Transmission circuit E6 comprises driving circuit D16, universal I signal transmitting circuit O6;

Transmission circuit E7 is the gentle volt circuit of induced liquid weight.

Driver D1, D2, D3, D4, D5, D6, D7, D8, D9, D10, D11, D12, D13, D14, D15, driving circuit D16 comprise signal input part, power take-off and power end respectively;

Zero limit signal transmission circuit P1, P2, P3, P4, P5, P6, universal I signal transmitting circuit O1, O2, O3, O4, O5, O6 comprise signal input part, signal output part, power end respectively;

Transmission circuit E7 comprises signal input part, signal output part and power end;

The temperature control system of control system E8 comprises main serial ports, auxilliary serial ports, signal input part, power take-off, power end.The light measuring system of control system E8 comprises serial ports, signal input part, power end;

The barcode machine T1 of barcode machine system and T2 comprise main serial ports, auxilliary serial ports, signal input part, power end.

3. as right 1 described automatic control system, it is characterized in that Mechatronic Systems comprises electromechanical equipment M1, M2, M3, M4, M5, M6, power electricity equipment M7 and hot optoelectronic device M8;

Electromechanical equipment M1 comprises motor Y1, Y2, Y3, Y4, zero limit switch group F1 and liquid level inductive switch group S1;

Electromechanical equipment M2 comprises motor Y5, Y6, Y7, Y8, zero limit switch group F2 and liquid level inductive switch group S2;

Electromechanical equipment group M3 comprises motor Y9 and Y13, zero limit switch group F3 and electromagnetic valve group;

Electromechanical equipment M4 comprises motor Y10 and zero limit switch group F4;

Electromechanical equipment M5 comprises motor Y11, Y12, Y14, Y15, zero limit switch group F4 and code-disc switch;

Electromechanical equipment group M6 comprises motor Y16, relay and Level Detection switches set;

Power electricity equipment group M7 comprises pressure transducer L1, L2, L3 and baroceptor;

Hot optoelectronic device group M8 comprises thermistor Z1, Z2, Z3, heating film silk H1, H2, H3 and photomultiplier.

4. as right 1 described automatic control system, it is characterized in that power-supply system is by switch and fuse, wave filter, 24V direct supply, 5/ ± 15V direct supply is formed;

The 220V alternating current is connected to an end of switch and fuse, the other end of switch and fuse is connected to the input end of wave filter, the output terminal of wave filter divides three the tunnel, one the tunnel is directly connected to the power end of master control system, one the road is connected to the input end of 24V direct supply, and one the road is connected to the input end of 5/ ± 15V direct supply;

The output demultiplexing of 24V direct supply is connected to the power end of following circuit: driver D1, D2, D3, D4, D5, D6, D7, D8, D9, D10, D11, D12, D13, D14, D15, D16, zero limit signal transmission circuit P1, P2, P3, P4, P5, P6, universal I signal transmitting circuit O1, O2, O3, O4, O5, O6, temperature control system;

The 5V output of 5/ ± 15V direct supply is connected to zero limit signal transmission circuit P1, P2, P3, P4, P5, P6, universal I signal transmitting circuit O1, O2, O3, O4, O5, O6, temperature control system, light measuring system, transmission circuit E7;

5/ ± 15V direct supply ± 15V output is connected to transmission circuit E7.

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