CN106249715A - Hydraulic turbine temperature signal coupled logic processing-type monitoring system based on network technology - Google Patents

Abstract

The invention discloses a kind of hydraulic turbine temperature signal coupled logic processing-type monitoring system based on network technology, it is characterised in that mainly by main station system, with the substation system composition being connected with main station system by wireless network；Described main station system is by the first single-chip microcomputer, data storage, display, data processor and signal processing unit, and the first wireless transport module composition；Described substation system by second singlechip, the second wireless transport module, air cooler, and the temperature cruise instrument A, the temperature cruise instrument B that are all connected with second singlechip by RS 485 bus and temperature cruise instrument C composition.The signal that the substation system of the present invention is gathered is sent to main station system by wireless network, it is not necessary to by connection, makes whole monitoring system simpler, and monitoring information transmission is faster, and cost is lower.

Description

Hydraulic turbine temperature signal coupled logic processing-type monitoring system based on network technology

Technical field

The present invention relates to a kind of network technology, specifically, be a kind of hydraulic turbine temperature based on network technology letter Number coupled logic processing-type monitoring system.

Background technology

The hydraulic turbine is the dynamic power machine energy of current being converted to rotating mechanical energy, and it belongs to the turbine in fluid machinery Machinery.Before and after B.C. 100 years, China has occurred as soon as the blank water wheels of the hydraulic turbine, is used for irrigating by lifting water to a higher level with a water pump, etc. and driving grain processing Apparatus.The modern hydraulic turbine in then great majority are arranged on power station, is used for driving electrical power generators.And the hydraulic turbine is operationally because holding The load being subject to is very big, then the temperature that can make the hydraulic turbine is too high, i.e. the hydraulic turbine can be tall and big in the temperature that electromotor is driven formula 500 DEG C, work will break down if the hydraulic turbine is chronically under the high temperature of 500 DEG C, cause the hydraulic turbine cannot drive generating Machine generates electricity.In order to the temperature preventing the hydraulic turbine is too high, people just use point-to-point monitor mode to carry out the temperature of the hydraulic turbine Monitoring in real time, but, the existing point-to-point monitor mode being monitored hydraulic turbine temperature exists supervises hydraulic turbine temperature The problem of the poor accuracy of control, causes monitoring personnel can not grasp hydraulic turbine temperature accurately, and the temperature causing the hydraulic turbine is too high, And break down；And existing point-to-point monitor mode there is also information transmission problem not in time, causes monitoring personnel Timely the high temperature of the hydraulic turbine can not be processed.

Therefore it provides a kind of effect that can improve the monitoring temperature to the hydraulic turbine, monitoring information can be carried out in time again The hydraulic turbine temperature monitoring system of transmission is the task of top priority.

Summary of the invention

It is an object of the invention to overcome the existing point-to-point monitor mode that hydraulic turbine temperature is monitored to exist Poor accuracy to hydraulic turbine monitoring temperature, the defect that monitoring information can not be transmitted timely, it is provided that one based on net The hydraulic turbine temperature signal coupled logic processing-type monitoring system of network technology.

To achieve these goals, the scheme that the present invention uses is as follows: hydraulic turbine temperature signal coupling based on network technology Logical processing-type monitoring system, mainly by main station system, with the substation system being connected with main station system by wireless network Composition；Described main station system is by the first single-chip microcomputer, at the data storage being all connected with the first single-chip microcomputer, display, data Reason device and signal processing unit, and the first wireless transport module composition being connected with signal processing unit；Described substation system System is by second singlechip, the second wireless transport module being connected with second singlechip respectively and air cooler, and all passes through RS- Temperature cruise instrument A, temperature cruise instrument B and temperature cruise instrument C that 485 buses are connected with second singlechip form；Described first Wireless transport module and the second wireless transport module are connected by wireless network；Described first single-chip microcomputer also with the first wireless biography Defeated module is connected.

Described signal processing unit is by processing chip U, and audion VT2, positive pole is connected with the base stage of audion VT2, bears Pole and polar capacitor C5, the P pole that is connected of CF pin processing chip U base stage with audion VT2 after resistance R9 is connected, The diode D3 that N pole is connected with the colelctor electrode of audion VT2, negative pole be connected with the P pole of diode D3 after ground connection, positive pole with The polar capacitor C6 that the emitter stage of audion VT2 is connected, the emitter coupled logic (ECL) being connected with the CM pin processing chip U Circuit, positive pole emitter stage with audion VT2 after resistance R10 is connected, negative pole is connected with emitter-coupled logic (ECL) Polar capacitor C7, respectively with the signal processing the IN pin of chip U and VS pin and the first wireless transport module is connected Wave reception filtering circuit, and adjust with the signal level processing the OUT pin of chip U and CM pin and VS pin is connected respectively Economize on electricity road composition；The COM pin of described process chip U is connected with OUT pin and CM pin respectively；Described audion VT2's Base stage is also connected with the IN pin processing chip U, its emitter stage is then connected with the CC pin processing chip U；Described signal Level adjustment circuit and the first single-chip microcomputer are connected.

Further, described emitter-coupled logic (ECL) is by audion VT5, audion VT6, and audion VT7, N are the most suitable Secondary be connected through resistance R20 emitter stage with audion VT6 after resistance R22, P pole is connected with the negative pole of polar capacitor C7 Diode D7, positive pole N pole with diode D7 after resistance R21 is connected, negative pole after adjustable resistance R25 with audion VT6 The polar capacitor C13 that is connected of base stage, positive pole is connected with the junction point of resistance R20 with resistance R22, negative pole is through resistance R23 The polar capacitor C11 that emitter stage with audion VT5 is connected afterwards, positive pole after resistance R24 with the colelctor electrode phase of audion VT5 Connect, polar capacitor C14, the P pole of minus earth be connected with the base stage of audion VT5, N pole after resistance R26 with audion Diode D8, the P pole that the base stage of VT7 is connected is connected with the colelctor electrode of audion VT7, the diode D9 of N pole ground connection, and Positive pole be connected with the negative pole of polar capacitor C11 after the polar capacitor that is connected with the emitter stage of audion VT7 of ground connection, negative pole C12 forms；The minus earth of described polar capacitor C13；The grounded collector of described audion VT6, its emitter stage also with three poles The base stage of pipe VT5 is connected；The emitter stage of described audion VT7 is also connected with the CM pin processing chip U.

Described signal wave reception filtering circuit by amplifier P1, audion VT1, positive pole after resistance R5 with audion VT1's The polar capacitor C2 that base stage is connected, negative pole and the first wireless transport module are connected, the negative pole phase of positive pole and polar capacitor C2 Connect, polar capacitor C4, P pole that negative pole negative pole with amplifier P1 after resistance R7 is connected after resistance R8 with amplifier P1 The diode D2 that negative pole is connected, N pole is connected with the outfan of amplifier P1, one end is connected with the P pole of diode D2, Inductance L1, the P pole that the other end is connected with the outfan of amplifier P1 is connected with the positive pole of amplifier P1, N pole is through resistance R3 The diode D1 that colelctor electrode with audion VT1 is connected afterwards, positive pole P pole with diode D1 after resistance R1 is connected, negative The polar capacitor C1 that pole colelctor electrode with audion VT1 after resistance R2 is connected, and positive pole after resistance R4 with audion The polar capacitor C3 composition that the colelctor electrode of VT1 is connected, negative pole outfan with amplifier P1 after resistance R6 is connected；Described The emitter stage of audion VT1 is connected with the outfan of amplifier P1；The minus earth of described amplifier P1, its positive pole also with pole Property electric capacity C2 positive pole be connected, its outfan also with process chip U IN pin be connected；The negative pole of described polar capacitor C1 Ground connection；The negative pole of described polar capacitor C3 is also connected with the VS pin processing chip U.

Described signal level regulation electricity routing amplifier P2, field effect transistor MOS, audion VT3, audion VT4, one end with The colelctor electrode of audion VT3 is connected, resistance R11, the P pole of other end ground connection is connected with the emitter stage of audion VT3, N pole The diode D4 that colelctor electrode with audion VT4 is connected after adjustable resistance R15, positive pole after resistance R13 with amplifier P2 Polar capacitor C8, the P pole that negative pole is connected, negative pole outfan with amplifier P2 after resistance R14 is connected and amplifier The negative pole of P2 be connected after the diode D5 that is connected of ground connection, N pole negative pole with polar capacitor C8 after resistance R12, positive pole with The polar capacitor C9 that the drain electrode of field effect transistor MOS is connected, negative pole is connected with the emitter stage of audion VT3, one end and three poles The resistance R16 that the colelctor electrode of pipe VT4 is connected, the other end is connected with the OUT pin of process chip U, positive pole is after resistance R18 Be connected with the base stage of audion VT4, polar capacitor C10, P pole that negative pole is connected with the outfan of amplifier P2 and audion The diode D6 that the base stage of VT4 is connected, N pole negative pole with polar capacitor C10 after resistance R19 is connected, one end and process The inductance L2 that the VS pin of chip U is connected, the other end is connected with the source electrode of field effect transistor MOS, and one end and field effect The adjustable resistance R17 composition that the grid of pipe MOS is connected, the other end is connected with the base stage of audion VT4；Described audion The emitter stage of VT3 also negative pole with polar capacitor C9 is connected, its base stage is then connected with the CM pin processing chip U；Described The N pole of diode D4 also negative pole with amplifier P2 is connected；The emitter stage of described audion VT4 and the positive pole phase of amplifier P2 Connect；Outfan and first single-chip microcomputer of described amplifier P2 are connected.

For the practical effect of the present invention, described process chip U the most preferentially have employed the integrated chip of AD736 and comes real Existing.

The present invention compared with prior art, has the following advantages and beneficial effect:

(1) signal that the substation system of the present invention is gathered is sent to main station system by wireless network, it is not necessary to pass through line Road connects, and makes whole monitoring system simpler, and monitoring information transmission is faster, and cost is lower.

(2) the interference signal in the signal received can be eliminated or suppress by the present invention；And can be in the signal of output Low current signal or charge signal be amplified, make signal more stable, and signal frequency can also be fixed by the present invention The dutycycle of square wave be adjusted, the level making the digital signal that the present invention exports is more stable, thus improves the present invention Accuracy to signal processing, effectively ensure that the present invention accuracy to hydraulic turbine monitoring temperature, makes the monitoring personnel can be very Fast discovery hydraulic turbine temperature anomaly, and the source of trouble can be positioned accurately and discharge.

(3) present invention can have the symmetry to signal parameter and negative feedback, the effectively static work of stabilization signal Make a little, the difference mode signal of signal can be amplified, and the common-mode signal of signal is suppressed, and the zero point of signal can be floated Shift-in row suppression, it is ensured that the signal processing unit of the present invention effect to signal processing, thus effectively raise the present invention Accuracy to signal processing.

(4) the process chip U of the present invention the most preferentially have employed the integrated chip of AD736 and realizes, this chip and peripheral circuit Combine, can effectively improve stability and the reliability of the present invention.

Accompanying drawing explanation

Fig. 1 is the overall structure block diagram of the present invention.

Fig. 2 is the electrical block diagram of the signal processing unit of the present invention.

Fig. 3 is the electrical block diagram of the emitter-coupled logic (ECL) of the present invention.

Detailed description of the invention

Below in conjunction with embodiment and accompanying drawing thereof, the present invention is described in further detail, but embodiments of the present invention are not It is limited to this.

Embodiment

As it is shown in figure 1, the present invention is mainly by main station system, with the substation system being connected with main station system by wireless network System composition.Described main station system as it is shown in figure 1, it is by the first single-chip microcomputer, the data storage being all connected with the first single-chip microcomputer, Display, data processor and signal processing unit, and the first wireless transport module group being connected with signal processing unit Become.Described substation system is as it is shown in figure 1, it is wirelessly transferred by second singlechip, second be connected with second singlechip respectively Module and air cooler, and temperature cruise instrument A, the temperature cruise instrument B being all connected with second singlechip by RS-485 bus Form with temperature cruise instrument C；Described first wireless transport module and the second wireless transport module are connected by wireless network；Institute State the first single-chip microcomputer to be also connected with the first wireless transport module.

In order to ensure the reliability service of the present invention, first single-chip microcomputer of the present invention and second singlechip the most preferentially have employed FM8PE59A single-chip microcomputer realizes.The TI0 pin of this first single-chip microcomputer is connected with data storage, at PIN pin and signal Reason unit is connected, and POUT1 pin is connected with data processor, and POUT2 pin is connected with display.Meanwhile, second is single POUT0 pin and second wireless transport module of sheet machine are connected, and CLK pin is connected with air cooler, PIN0-PIN2 pin with Being connected by USB interface of RS-485 bus.Described RS-485 bus the most respectively with temperature cruise instrument A, temperature cruise instrument B It is connected with temperature cruise instrument C.

During enforcement, the temperature cruise instrument A and temperature cruise instrument B of the substation system of the present invention and temperature cruise instrument C all adopt With TCD-48 digital temperature logging.Temperature cruise instrument uses MCS-51 single-chip microcomputer to be kernel, and Pt100 platinum resistance thermometer sensor, is as survey Temperature element, temperature-measuring range is-200～500 DEG C, and measuring temperature resolution is 0.1 DEG C.TCD-48 digital temperature logging every can Gather 48 focuses of monitoring, present invention employs 3 TCD-48 digital temperature loggings and the temperature of the hydraulic turbine is monitored, The number of units of its TCD-48 digital temperature logging can increase and decrease according to the different model of the hydraulic turbine.Described temperature cruise instrument A With the periphery that temperature cruise instrument B and temperature cruise instrument C is separately positioned on the hydraulic turbine, and temperature cruise instrument A and temperature cruise instrument B And temperature cruise instrument C puts into equilateral triangle centered by the hydraulic turbine and is distributed in the periphery different heat to the hydraulic turbine of the hydraulic turbine Point is monitored.Meanwhile, the present invention uses the serial data bus of RS-485 interface to complete 3 temperature cruise instruments and the second list The two-way communication of sheet machine, the serial conversion interface of this RS-485 interface is connected with the communication interface of second singlechip, and described The second wireless transport module that two single-chip microcomputers are transferred to by signal output part after being analyzed processing to the signal received.Described Second wireless transport module then transmits information to main station system the first wireless transport module by wireless network, and the present invention can adopt Signal transmission is carried out with mobile internet or other network.

Meanwhile, reception is then that signal is transferred to signal processing unit by the second wireless transport module, this signal processing unit Interference signal in the signal received is eliminated or suppresses；And can be to the low current signal in the signal of output or electric charge Signal is amplified, and makes signal more stable, and the dutycycle of the square wave that signal frequency is fixed can also be carried out by the present invention Regulation, the level making the digital signal that the present invention exports is more stable.Signal after signal processing unit will process is converted to numeral Being transferred to the first single-chip microcomputer after signal, this first single-chip microcomputer obtains the temperature of the hydraulic turbine after being processed by the digital signal of reception Digital point is transferred to data processor, and this data processor and the first single-chip microcomputer are for being bi-directionally connected, and data processor is to this temperature Digital point obtains the actual temperature value of the hydraulic turbine after being analyzed, data processor the actual temperature value of the hydraulic turbine that will obtain Being shown on display by the first single-chip microcomputer, monitoring personnel just can be by the actual temperature of the hydraulic turbine shown on display The temperature of the hydraulic turbine is supervised by value, and the actual temperature value of the hydraulic turbine is transferred to coupled by the first single-chip microcomputer simultaneously Data storage stores, in order to monitoring personnel check later.

When hydraulic turbine temperature value shown on display high with 100 DEG C time, monitoring personnel are then by the of main station system One single-chip microcomputer sends the instruction opening air cooler, and this instruction gives second by the first wireless transport module by wireless network transmissions Wireless transport module, the command signal of reception is transferred to second singlechip by the second wireless transport module, second singlechip then root Control air cooler according to the signal carried out to open, i.e. the hydraulic turbine is dispelled the heat by air cooler, makes the temperature of the hydraulic turbine quickly to drop Low.Within on display, the temperature of the hydraulic turbine of display is reduced to 100 DEG C, monitoring personnel then can be empty by wireless network control Cooler is closed.The air cooler of the present invention and the hydraulic turbine position is set and to use be prior art, the present invention is therefore in the application In be specifically described.

Therefore, hydraulic turbine temperature can be monitored by the substation system of the present invention accurately, and can be incited somebody to action by wireless network The information detected is transferred to main station system in time, accurately；And the signal processing unit energy in the main station system of the present invention The signal received is had preferably process, makes station system can improve after the first single-chip microcomputer is analyzed processing and be accurately obtained Hydraulic turbine temperature value, the temperature information to the hydraulic turbine that monitoring personnel can be monitored by present invention discovery hydraulic turbine temperature quickly Degree is abnormal, and can position the source of trouble accurately and discharge.The present invention preferably achieves the network to hydraulic turbine temperature Change monitoring.

Wherein, described signal processing unit as in figure 2 it is shown, it is by processing chip U, audion VT2, resistance R9, resistance R10, polar capacitor C5, polar capacitor C6, polar capacitor C7, diode D3, emitter-coupled logic (ECL), signal accepts filter Circuit, and signal level regulation circuit composition.

During connection, the positive pole of polar capacitor C5 is connected with the base stage of audion VT2, negative pole and the CF pipe processing chip U Foot is connected.The P pole of diode D3 base stage with audion VT2 after resistance R9 is connected, the current collection of N pole and audion VT2 Pole is connected.The negative pole of polar capacitor C6 be connected with the P pole of diode D3 after ground connection, the emitter stage of positive pole and audion VT2 It is connected.Emitter-coupled logic (ECL) is connected with the CM pin processing chip U.The positive pole of polar capacitor C7 is through resistance R10 Emitter stage with audion VT2 is connected afterwards, and negative pole is connected with emitter-coupled logic (ECL).Signal wave reception filtering circuit divides Not it is not connected with the IN pin of process chip U and VS pin and the first wireless transport module.Signal level regulation circuit is respectively With process the OUT pin of chip U and CM pin and VS pin is connected.

The COM pin of described process chip U is connected with OUT pin and CM pin respectively；The base stage of described audion VT2 Also being connected with the IN pin processing chip U, its emitter stage is then connected with the CC pin processing chip U；Described signal level Regulation circuit and the first single-chip microcomputer are connected.

During enforcement, the audion VT3 of the present invention, resistance R8, resistance R9, polar capacitor C4, polar capacitor C5, inductance L2 and Diode D4 then defines electromagnetism interference device, and what the external world can be produced by this electromagnetism interference device does the electromagnetism processing chip U Disturb signal suppress or weaken, effectively ensure that the process chip U effect to signal processing.Meanwhile, signal processing unit The input of signal wave reception filtering circuit and the signal output interface of the first wireless transport module be connected, and signal level adjust The outfan on economize on electricity road is then connected with the first single-chip microcomputer.For the practical effect of the present invention, described process chip U is the most excellent First have employed the integrated chip of AD736 to realize.

Further, described signal wave reception filtering circuit is by amplifier P1, audion VT1, resistance R1, resistance R2, resistance R3, resistance R4, resistance R5, resistance R6, resistance R7, resistance R8, polar capacitor C1, polar capacitor C2, polar capacitor C3, polarity electricity Hold C4, inductance L1, diode D1, and diode D2 composition.

During connection, the positive pole of polar capacitor C2 base stage with audion VT1 after resistance R5 is connected, negative pole and the first nothing Line transport module is connected.The positive pole of polar capacitor C4 is connected with the negative pole of polar capacitor C2, negative pole after resistance R7 with put The negative pole of big device P1 is connected.The P pole of diode D2 negative pole with amplifier P1 after resistance R8 is connected, N pole and amplifier The outfan of P1 is connected.One end of inductance L1 is connected with the P pole of diode D2, the outfan phase of the other end and amplifier P1 Connect.

Meanwhile, the P pole of diode D1 is connected with the positive pole of amplifier P1, N pole after resistance R3 with the collection of audion VT1 Electrode is connected.The positive pole of polar capacitor C1 P pole with diode D1 after resistance R1 is connected, negative pole after resistance R2 with three The colelctor electrode of pole pipe VT1 is connected.The positive pole of polar capacitor C3 colelctor electrode with audion VT1 after resistance R4 is connected, negative Pole outfan with amplifier P1 after resistance R6 is connected.

The emitter stage of described audion VT1 is connected with the outfan of amplifier P1；The minus earth of described amplifier P1, Its positive pole also positive pole with polar capacitor C2 is connected, and its outfan is also connected with the IN pin processing chip U；Described polarity The minus earth of electric capacity C1；The negative pole of described polar capacitor C3 is also connected with the VS pin processing chip U.

During operation, this anti-frequency mixes the electric capacity C2 in filter circuit and resistance R5 and then constitutes a low pass filter, this filtering Device can with filtering electric signal High-frequency Interference；Audion VT1, polar capacitor C1, diode D1 and resistance R3 form another Low pass filter, this low pass filter is possible to prevent previous low pass filter to filter High-frequency Interference and not thoroughly makes telecommunications Number by High-frequency Interference.Meanwhile, this anti-frequency mixes the amplifier P1 in filter circuit, electric capacity C4, inductance L1 and diode D2 then Forming amplifier, this amplifier then low current signal or charge signal to the signal after filtered process is amplified, and makes Signal is more stable.

Further, described signal level regulation electricity routing amplifier P2, field effect transistor MOS, audion VT3, three poles Pipe VT4, resistance R11, resistance R12, resistance R13, resistance R14, adjustable resistance R15, resistance R16, adjustable resistance R17, resistance R18, resistance R19, polar capacitor C8, polar capacitor C9, polar capacitor C10, inductance L2, diode D4, diode D5, and two Pole pipe D6 forms.

During connection, one end of resistance R11 is connected with the colelctor electrode of audion VT3, other end ground connection.The P of diode D4 Pole is connected with the emitter stage of audion VT3, and N pole colelctor electrode with audion VT4 after adjustable resistance R15 is connected.Polarity The positive pole of electric capacity C8 negative pole with amplifier P2 after resistance R13 is connected, negative pole after resistance R14 with the output of amplifier P2 End is connected.The P pole of diode D5 be connected with the negative pole of amplifier P2 after ground connection, N pole after resistance R12 with polar capacitor C8 Negative pole be connected.

Meanwhile, the positive pole of polar capacitor C9 is connected with the drain electrode of field effect transistor MOS, negative pole and the transmitting of audion VT3 Pole is connected.One end of resistance R16 is connected with the colelctor electrode of audion VT4, the other end and the OUT pin phase processing chip U Connect.The positive pole of polar capacitor C10 base stage with audion VT4 after resistance R18 is connected, the output of negative pole and amplifier P2 End is connected.The P pole of diode D6 is connected with the base stage of audion VT4, N pole negative with polar capacitor C10 after resistance R19 Pole is connected.One end of inductance L2 is connected with the VS pin processing chip U, and the other end is connected with the source electrode of field effect transistor MOS Connect.One end of adjustable resistance R17 is connected with the grid of field effect transistor MOS, and the other end is connected with the base stage of audion VT4.

The emitter stage of described audion VT3 also negative pole with polar capacitor C9 is connected, its base stage then with process chip U's CM pin is connected；The N pole of described diode D4 also negative pole with amplifier P2 is connected；The emitter stage of described audion VT4 It is connected with the positive pole of amplifier P2；Outfan and first single-chip microcomputer of described amplifier P2 are connected.

During operation, this signal level regulation the audion VT3 of circuit, diode D4, polar capacitor C9, polar capacitor C13, Resistance R16 and adjustable resistance R15 defines high resistance circuit, and this high resistance circuit can be effectively by the strong electromagnetic electricity in the signal of telecommunication Ripple eliminates or suppresses；Amplifier P2, polar capacitor C8, polar capacitor C10, resistance R14 and adjustable resistance R17 are formed simultaneously Actuator, the dutycycle of the fixing square wave of signal frequency can be adjusted, can effectively reduce the signal of telecommunication by this actuator In null offset, make the ordinary telegram of the signal of telecommunication keep consistent, even if digital electric signal is more stable, this electromagnetic interference suppression circuit Can effectively make the state that signal of telecommunication holding is stable, thus improve the signal processing unit effect to signal processing, can be effective The raising present invention accuracy to hydraulic turbine monitoring temperature.

As it is shown on figure 3, described emitter-coupled logic (ECL) is by audion VT5, audion VT6, audion VT7, resistance R20, resistance R21, resistance R22, resistance R23, resistance R24, adjustable resistance R25, resistance R26, polar capacitor C11, polar capacitor C12, polar capacitor C13, polar capacitor C14, diode D7, diode D8, and diode D9 form.

During connection, the N pole of diode D7 is sequentially connected through resistance R20 emitter stage with audion VT6 after resistance R22 Connecing, P pole is connected with the negative pole of polar capacitor C7.The positive pole of polar capacitor C13 after resistance R21 with the N pole phase of diode D7 Connecting, negative pole base stage with audion VT6 after adjustable resistance R25 is connected.The positive pole of polar capacitor C11 and resistance R20 with The junction point of resistance R22 is connected, and negative pole emitter stage with audion VT5 after resistance R23 is connected.

Meanwhile, the positive pole of polar capacitor C14 colelctor electrode with audion VT5 after resistance R24 is connected, minus earth. The P pole of diode D8 is connected with the base stage of audion VT5, and N pole base stage with audion VT7 after resistance R26 is connected.Two The P pole of pole pipe D9 is connected with the colelctor electrode of audion VT7, N pole ground connection.The positive pole of polar capacitor C12 is with polar capacitor C11's Negative pole be connected after ground connection, negative pole is connected with the emitter stage of audion VT7.

The minus earth of described polar capacitor C13；The grounded collector of described audion VT6, its emitter stage also with three poles The base stage of pipe VT5 is connected；The emitter stage of described audion VT7 is also connected with the CM pin processing chip U.

During operation, the present invention in order to the symmetry of signal parameter and negative feedback are adjusted, stabilization signal effectively Quiescent point, is amplified the difference mode signal of signal, and suppresses the common-mode signal of signal, and can be to the zero of signal Point drift suppresses, and therefore the present invention is provided with transmitting between the negative pole and the CM pin processing chip U of polar capacitor C7 Pole coupled logic circuit.The audion VT6 of this emitter-coupled logic (ECL), polar capacitor C13 and adjustable resistance R25 define Circuit for signal conditioning, the title of signal parameter and negative feedback can be adjusted by this circuit, effectively the static work of stabilization signal Making a little, and audion VT5, audion VT7, polar capacitor C14 and diode D8 form amplifier, this amplifier can be to signal Difference mode signal be amplified；Meanwhile, polar capacitor C12 and resistance R23 shaping filter, this wave filter can be to the common mode of signal Signal suppresses, and can suppress the null offset of signal.Thus this emitter-coupled logic (ECL) can effectively carry The high signal processing unit effect to signal processing.

According to above-described embodiment, can well realize the present invention.

Claims (5)

1. hydraulic turbine temperature signal coupled logic processing-type monitoring system based on network technology, it is characterised in that main by leading Stand system, with the substation system composition being connected with main station system by wireless network；Described main station system by the first single-chip microcomputer, Data storage, display, data processor and the signal processing unit being all connected with the first single-chip microcomputer, and with signal at The first wireless transport module composition that reason unit is connected；Described substation system is by second singlechip, respectively with second singlechip The second wireless transport module being connected and air cooler, and the temperature being all connected with second singlechip by RS-485 bus Cruise instrument A, temperature cruise instrument B and temperature cruise instrument C composition；Described first wireless transport module and the second wireless transport module lead to Cross wireless network to be connected；Described first single-chip microcomputer is also connected with the first wireless transport module；Described signal processing unit by Processing chip U, audion VT2, positive pole is connected with the base stage of audion VT2, negative pole is connected with the CF pin of process chip U Polar capacitor C5, P pole base stage with audion VT2 after resistance R9 be connected, N pole is connected with the colelctor electrode of audion VT2 The diode D3 connect, after negative pole is connected with the P pole of diode D3, ground connection, positive pole are connected with the emitter stage of audion VT2 Polar capacitor C6, and the emitter-coupled logic (ECL) that is connected of CM pin processing chip U, positive pole after resistance R10 with three The polar capacitor C7 that emitter stage is connected, negative pole is connected with emitter-coupled logic (ECL) of pole pipe VT2, respectively with process core The signal wave reception filtering circuit that the IN pin of sheet U is connected with VS pin and the first wireless transport module, and respectively with place The signal level regulation circuit composition that the OUT pin of reason chip U is connected with CM pin and VS pin；Described process chip U COM pin be connected with OUT pin and CM pin respectively；The base stage of described audion VT2 also with process chip U IN pin Be connected, its emitter stage is then connected with the CC pin processing chip U；Described signal level regulation circuit and the first single-chip microcomputer phase Connect.

Hydraulic turbine temperature signal coupled logic processing-type monitoring system based on network technology the most according to claim 1, It is characterized in that, described emitter-coupled logic (ECL) is by audion VT5, audion VT6, and audion VT7, N pole is sequentially through electricity Be connected with the emitter stage of audion VT6 after resistance R20 and resistance R22, diode that P pole is connected with the negative pole of polar capacitor C7 D7, positive pole N pole with diode D7 after resistance R21 is connected, negative pole after adjustable resistance R25 with the base stage of audion VT6 The polar capacitor C13 being connected, positive pole is connected with the junction point of resistance R20 with resistance R22, negative pole after resistance R23 with three The polar capacitor C11 that the emitter stage of pole pipe VT5 is connected, positive pole colelctor electrode with audion VT5 after resistance R24 is connected, Polar capacitor C14, the P pole of minus earth is connected with the base stage of audion VT5, N pole after resistance R26 with audion VT7's Diode D8, the P pole that base stage is connected is connected with the colelctor electrode of audion VT7, the diode D9 of N pole ground connection, and positive pole The polar capacitor C12 group that after being connected with the negative pole of polar capacitor C11, ground connection, negative pole are connected with the emitter stage of audion VT7 Become；The minus earth of described polar capacitor C13；The grounded collector of described audion VT6, its emitter stage also with audion VT5 Base stage be connected；The emitter stage of described audion VT7 is also connected with the CM pin processing chip U.

Hydraulic turbine temperature signal coupled logic processing-type monitoring system based on network technology the most according to claim 2, It is characterized in that, described signal wave reception filtering circuit by amplifier P1, audion VT1, positive pole after resistance R5 with audion VT1 The polar capacitor C2 that base stage is connected, negative pole and the first wireless transport module are connected, the negative pole of positive pole and polar capacitor C2 Be connected, polar capacitor C4, P pole that negative pole negative pole with amplifier P1 after resistance R7 is connected after resistance R8 with amplifier The diode D2 that the negative pole of P1 is connected, N pole is connected with the outfan of amplifier P1, one end is extremely connected with the P of diode D2 Connect, inductance L1, P pole that the other end is connected with the outfan of amplifier P1 is connected with the positive pole of amplifier P1, N pole is through resistance The diode D1 that after R3, colelctor electrode with audion VT1 is connected, positive pole P pole with diode D1 after resistance R1 is connected, The polar capacitor C1 that negative pole colelctor electrode with audion VT1 after resistance R2 is connected, and positive pole after resistance R4 with three poles The polar capacitor C3 composition that the colelctor electrode of pipe VT1 is connected, negative pole outfan with amplifier P1 after resistance R6 is connected；Institute The outfan of the emitter stage and amplifier P1 of stating audion VT1 is connected；The minus earth of described amplifier P1, its positive pole also with The positive pole of polar capacitor C2 is connected, its outfan is also connected with the IN pin processing chip U；Described polar capacitor C1's is negative Pole ground connection；The negative pole of described polar capacitor C3 is also connected with the VS pin processing chip U.

Hydraulic turbine temperature signal coupled logic processing-type monitoring system based on network technology the most according to claim 3, It is characterized in that, described signal level regulation electricity routing amplifier P2, field effect transistor MOS, audion VT3, audion VT4, one End is connected with the colelctor electrode of audion VT3, resistance R11, the P pole of other end ground connection is connected with the emitter stage of audion VT3, The diode D4 that N pole colelctor electrode with audion VT4 after adjustable resistance R15 is connected, positive pole after resistance R13 with amplifier The negative pole of P2 is connected, negative pole outfan with amplifier P2 after resistance R14 is connected polar capacitor C8, P pole and amplification The negative pole of device P2 be connected after the diode D5 that is connected of ground connection, N pole negative pole with polar capacitor C8 after resistance R12, positive pole Be connected with the drain electrode of field effect transistor MOS, polar capacitor C9 that negative pole is connected with the emitter stage of audion VT3, one end and three The resistance R16 that the colelctor electrode of pole pipe VT4 is connected, the other end is connected with the OUT pin of process chip U, positive pole is through resistance R18 Polar capacitor C10, the P pole that base stage with audion VT4 is connected afterwards, negative pole is connected with the outfan of amplifier P2 and three poles The diode D6 that the base stage of pipe VT4 is connected, N pole negative pole with polar capacitor C10 after resistance R19 is connected, one end and place Manage the inductance L2 that VS pin is connected, the other end is connected with the source electrode of field effect transistor MOS of chip U, and one end is imitated with field Should pipe MOS the adjustable resistance R17 that grid is connected, the other end is connected with the base stage of audion VT4 composition；Described audion The emitter stage of VT3 also negative pole with polar capacitor C9 is connected, its base stage is then connected with the CM pin processing chip U；Described The N pole of diode D4 also negative pole with amplifier P2 is connected；The emitter stage of described audion VT4 and the positive pole phase of amplifier P2 Connect；Outfan and first single-chip microcomputer of described amplifier P2 are connected.

Hydraulic turbine temperature signal coupled logic processing-type monitoring system based on network technology the most according to claim 4, It is characterized in that, described process chip U is the integrated chip of AD736.