CN201949918U - High frequency power supply for electrostatic precipitator - Google Patents

Abstract

The utility model discloses a high frequency power supply for an electrostatic precipitator. The power supply comprises the following components of an external three-phase input circuit, a three-phase fully-controlled rectification bridge and driving circuit, an insulated gate transistor inversion and driving circuit, a direct current bus circuit, a temperature control, heating, vibration and ash-conveying control circuit, a double-CPU (central processing unit) high-low voltage integrated controller, a high frequency boosting transformer, a high frequency silicon stack rectification circuit and a secondary voltage, secondary current and flash-over feedback circuit. The high frequency power supply for the electrostatic precipitator is a high-low voltage integrated product, saves energy, is highly efficient, omits a ground control chamber and has a simple, compact and reasonable structure compared with a power frequency power supply.

Description

The electric precipitation high frequency electric source

Technical field

The utility model relates to a kind of electric precipitation high frequency electric source.

Background technology

Electrostatic precipitator (being called for short ESP) basic principle is: ash-laden gas is by the high-voltage electrostatic field, and dust is collected in electric field, reaches the purpose of gas cleaning.For setting up the high-voltage electrostatic field, need high-voltage DC power supply.

ESP is the visual plant in the environmental protection field, is mainly used in plasma discharge, dedusting, demist, dehydration, air cleaning, high-effective dust-removing desulfurization, impurity separation and plurality of raw materials recovery etc.

The high voltage electric field equivalence of ESP is R, C shunt load, and wherein C is the equivalent capacity of high voltage electric field, is generally several thousand～several ten thousand PF, and R is a variable resistor, changes at any time with the ESP operating mode.As seen, ESP is fluctuating load, and is very big to the impact of its DC high-voltage power supply when flashover or short circuit take place, and must take corresponding measure to guarantee that power supply is reliable, stable operation for this reason, and need provide good power supply for ESP, satisfies ESP dedusting requirement.

Because the inherent characteristics of high frequency electric source can improve the power supply performance to ESP, and then improve the dust-collecting efficiency of ESP, the exploitation of high frequency electric source becomes a hot technology.

At present, along with the continuous increase of ESP area, the capacity of high frequency electric source can not satisfy user's needs, especially needs capacity more than the 80KV/1A in power system, and the exploitation of high-power high-frequency power supply is subject to problems such as high-frequency loss, and being difficult to has big breakthrough.

There are characteristics such as big capacity, big, the frequent flashover of load variations in the working condition requirement of ESP, and all these problems all need the joint efforts of high frequency electric source producer, strive early settlement, produce the high frequency electric source product that satisfies market demand.

As, the electric precipitation that the patent No. is 200520132784, patent name is integrated is with the Chinese utility model patent of high frequency electric source, a kind of incorporate electric precipitation high frequency electric source is disclosed, its design feature is: the high frequency switch board places on the high frequency transformer, and both are positioned over dust remover roof at organic one of becoming.The front and back dividing plate is separated into former and later two chambeies with the high frequency switch board, and ante-chamber is installed main controller, pulsed drive baffle and relevant major loop, and back cavity is installed converter.Converter in the back cavity and the main controller in the ante-chamber are isolated with barricade.Main heater members such as the gated transistor in the converter, series resonance inductance, shunt inductance is taken away heat by three-phase blower fan forced air cooling.The three-phase blower fan adopts the after-blow formula, is installed on the Rear Door.This design compact overall structure is reasonable, neat, and easy to assembly, antijamming capability is strong, good heat dissipation effect, and stable and reliable operation, volume is little, and is in light weight, adopts high-frequency inversion, is suitably for precipitator energisation.

But the circuit part of its high frequency electric source does not have better improvements.

The utility model content

The utility model technical issues that need to address just are to overcome the defective of prior art, and a kind of electric precipitation high frequency electric source is provided, and it is a kind of high and low pressure integration product, compare with power frequency supply, energy-conservation, efficient, and saved the control room, ground, structure is simple more, compact, reasonable.

For addressing the above problem, the utility model adopts following technical scheme:

The utility model provides a kind of electric precipitation high frequency electric source, and described power supply is made of following each several part: outside three-phase input circuit, three-phase full-controlled rectifier bridge and drive circuit, gated transistor inversion and drive circuit, dc bus circuit, temperature control, heating, rapping and defeated grey control circuit, two high-low pressure integratedization of CPU controller;

And high-frequency step-up transformer, high frequency silicon stack rectification circuit and secondary voltage secondary current and flashover feedback circuit;

Three-phase 380V AC power is inserted, through air switch three phase mains is delivered to three-phase full-controlled rectifier bridge and drive circuit by outside three-phase input circuit;

Three-phase full-controlled rectifier bridge and drive circuit thereof receive three-phase 380V AC power, by controllable silicon (SCR) full-bridge drive plate circuit (being SCR full-bridge drive plate circuit), and output 0-540V variable DC voltage; The frequency signal that controlled silicon full-bridge drive plate circuit is sent two high-low pressure integratedization of CPU controllers here is converted to silicon controlled conducting phase signal, the different different DC voltages of conducting phase place output;

The DC voltage of three-phase full-controlled rectifier bridge and drive circuit output thereof is delivered to before gated transistor (IGBT) inversion and drive circuit (being IGBT inversion and the drive circuit) circuit, at first be added on the dc bus circuit, the dc bus circuit reduces reach the standard grade inductance value between the row of DC line, causes damaging otherwise the due to voltage spikes that causes under the big current changing rate will puncture gated transistor;

Gated transistor inversion and drive circuit convert the low-voltage DC of input to the low pressure high-frequency alternating current, the low pressure high-frequency alternating current is delivered to the high-frequency step-up transformer primary coil, and the driving signal of gated transistor inversion and drive circuit is from two high-low pressure integratedization of the CPU controllers after isolating through gated transistor drive plate circuit (being IGBT drive plate circuit);

High-frequency step-up transformer the low-voltage high-frequency alternating current of primary coil input convert to secondary coil output the high voltage high-frequency alternating current, through high frequency silicon stack rectification circuit the high-frequency and high-voltage alternating current is converted to high voltage direct current, input to secondary voltage, secondary current and flashover feedback circuit, form the feedback signal of high-frequency and high-voltage power supply running status, deliver to two high-low pressure integratedization of CPU controllers as input signal to reach closed-loop control;

Temperature control, heating, rapping and defeated grey control circuit are connected with two high-low pressure integratedization of CPU controllers.

Controlled silicon full-bridge drive plate circuit described in the utility model is made up of three controllable silicon half-bridge modules and controllable silicon drive plate; Controlled silicon full-bridge drive plate circuit is the FREQUENCY CONTROL voltage regulating mode, and the DC voltage output area is 0-540V, and incoming frequency rising rectifier output voltage also raises synchronously, and frequency reduces the also corresponding decline of rectifier output voltage; The output of adopting the voltage-type Hall element is as feedback signal;

The controllable silicon half-bridge module adopts the 300A-500A/1600V specification, and supporting aluminium radiator is given three module heat dissipatings, the air quantity when wind regime uses the running of oil cooling blower fan;

As clock input signal, three phase informations are also delivered to No. three counter circuits as the zero clearing periodic signal to the pulse signal that controllable silicon driver module reception optical fiber is sent here simultaneously to No. three counter circuits; Level is the trigger impulse that No. 6 pierce circuits are used to produce fixed width behind the circuit, and other No. one oscillator produces thready pulse modulated 6 and has a lot of social connections pulse so that pulse transformer; No. 6 pierce circuits receive the output of front three road counter chips, produce the triggering signal of respective phase.

Gated transistor inversion described in the utility model and drive circuit comprise: DC voltage-stabilizing electric capacity between full-bridge gated transistor circuit in parallel, dc bus, bus, gated transistor drive plate circuit, and the aluminium matter oil cooling plate of cooling gated transistor module;

Full-bridge gated transistor circuit in parallel is made of three class full-bridge gated transistor modules, second class gated transistor full-bridge circuit that is respectively the first kind gated transistor full-bridge module formed by two half-bridge gated transistor modules, composes in parallel in twos by four gated transistor half-bridge modules and the 3rd class gated transistor full-bridge circuit that composes in parallel by six half-bridge gated transistor modules three or three; Full-bridge gated transistor circuit in parallel reaches export resonance current peak 400A, 800A, 1200A and above power demand;

Parallel connection direct electric capacity of voltage regulation on the dc bus dynamically provides corresponding electric current output;

Aluminium matter oil cooling plate size is determined area of dissipation and heat-conducting medium flow according to the thermal power size;

The effect of described gated transistor inverse changing driving circuit is under the normal switch frequency, drives full-bridge gated transistor circuit operate as normal in parallel, is made of driver module 2SD315, driver module 2SD300C17 and driver module 2SC0650P; Driver module 2SD315 provides 3W power drive first kind gated transistor full-bridge module, and 2SD300C17 provides the 4W power drive the second class gated transistor full-bridge module, and 2SC0650P provides the 6W power drive the 3rd class gated transistor full-bridge module.

High-frequency step-up transformer described in the utility model partly is made of magnetic core part and skeleton; Comprise primary winding and secondary coil;

It is two kinds of EE320 and EE480 that the high-frequency step-up transformer magnetic core is partly selected model for use, and the EE320 magnetic core of two width of cloth parallel connections is at the specification of power output less than 80kW; Specification is divided two kinds in parallel of the in parallel and fourth officer of three width of cloth, the following and specification more than the 120kW of corresponding power output 120kW respectively for the EE480 magnetic core;

Coil bag skeleton adopts materials such as polytetrafluoroethylplastic plastic, oven dry cardboard or epoxy sheet material, guarantees enough support strength and insulating capacity, the cylinder outer wall notching construction; Skeleton adopts multi-groove structure;

The primary winding copper cash adopts the sheet copper coiling, draws with the multiply litz wire; Keep enough spaces and form the oil circuit heat radiation outward between primary winding inwall and the core center post, between the skeleton of primary winding outer wall and secondary coil;

The secondary coil copper cash adopts the coiling in the same way of frequency conversion enamel covered wire, adopts Kapton and Du Pont high insulation NOMEX paper to do interlayer dielectic; Keep enough insulation distances between secondary coil periphery and the magnetic core.

In secondary voltage secondary current described in the utility model and the flashover feedback circuit:

The secondary current sampling adopts Hall current sensor to detect secondary current, and reduced form also can directly adopt low resistance resistance directly to detect;

The secondary voltage signal is taken from the magnitude of voltage on the equalizing resistance in parallel on the high-voltage capacitance;

Flashover signal is taken from current Hall and is detected the high-voltage capacitance signal that sparks, in the signal response time 1us.

Between controlled silicon full-bridge drive plate circuit described in the utility model and two high-low pressure integratedization of the CPU controller is optical fiber interface;

Between gated transistor drive plate circuit and two high-low pressure integratedization of the CPU controller is winding displacement interface or optical fiber interface; Winding displacement directly drives the IGBT drive plate, and optical fiber interface is 10 road optical fiber input/output interfaces, and fiber-optic signal divides 6 tunnel outputs, 4 tunnel inputs;

Two high-low pressure integratedization of CPU controllers provide 16 road input signals, and input signal is for exchanging or direct current 24V; Input signal comprises: start and stop, low-voltage equipment running status feedback etc. are switched, are closely controlled in far and near control;

Two high-low pressure integratedization of CPU controllers provide No. 12 relay output signals, and driving arrangement comprises: anode electric motor of shaker, cathode rapping motor, electric heater, machine for zipper, low-voltage equipments such as defeated grey discharger; The operation of high frequency electric source, fault, tripped condition are also exported by relay.

Two high-low pressure integratedization of CPU controllers have 14 road analog input signals: be respectively 4 road temperature input signals, 4 road 4-20mA input signals, secondary voltage, secondary current input signal, DC bus-bar voltage signal, input ac voltage signal, resonance current signal and flashover lock-on signal;

One road TCP/IP ethernet signal of two high-low pressure integratedization of CPU controllers provides standard MODBUS/TCPIP agreement; One road RS232, one road RS485, one road CAN provide three kinds of communication modes;

Two high-low pressure integratedization of CPU controllers provide two-way transmitter output signal, are convenient to the seamless link with the DCS system;

Two high-low pressure integratedization of CPU controllers provide one tunnel high speed input pulse signal.

The utility model electric precipitation high-frequency and high-voltage power supply is a kind of high and low pressure integration product, compares with power frequency supply, and is energy-conservation, efficient, and saved the control room, ground, and structure is simple more, compact, reasonable.

The utility model electric precipitation is compared with original power frequency supply with high frequency electric source and is had the following advantages:

(1), adopt integrated design, with high-pressure system, low-pressure system is integrated on the high frequency transformer, saves equipment occupation space and capital expenditure.Introduce advanced control models such as step-down rapping simultaneously.

(2), three-phase equilibrium power supply, power factor is brought up to more than 0.95 by 0.7, the product of power factor and efficient brings up to 0.89 by 0.64, electrical efficiency has the lifting of matter.

(3), during high-power applications, power insulated gate transistor modular parallel connection in the employing, and realize current-sharing between group with independent series resonance electric capacity, the high-power insulated gate transistor of keeping away with costliness reduces cost.

(4) utilize the Ferrite Material with high frequency characteristics to make high frequency transformer, keeping under the constant situation of step-up ratio, the former and deputy limit of high frequency transformer umber of turn significantly reduces, and saves 90% copper material.Oil tank of transformer is contracted to 1/4 of original power frequency supply fuel tank, saves 70% cold oil; High frequency transformer weight is reduced to about 0.5 ton by about 2 tons of original Industrial Frequency Transformer.

(5) adopt the hardware and software dual mode to detect the deduster flashover and take place, the hardware mode response time is guaranteed the reliable and stable operation of security of system within 1 μ S.

(6) adopt oil cooling plate+oil cooling radiator+oil pump mode to solve heat dissipation problem.The gated transistor module works in LC, the soft switch resonant condition of LCC, and caloric value is minimum.

(7) compare power frequency supply, efficiency of dust collection improves 40% to 80%, and operation energy consumption reduces by 50% to 80%.

Description of drawings

Fig. 1 is the utility model structural representation.

Fig. 2 is the schematic block circuit diagram of controlled silicon full-bridge drive plate circuit described in the utility model.

The specific embodiment

As shown in Figure 1, the utility model provides a kind of electric precipitation high frequency electric source, and described power supply is made of following each several part: outside three-phase input circuit, three-phase full-controlled rectifier bridge and drive circuit, gated transistor inversion and drive circuit, dc bus circuit, temperature control, heating, rapping and defeated grey control circuit, two high-low pressure integratedization of CPU controller;

And high-frequency step-up transformer, high frequency silicon stack rectification circuit and secondary voltage secondary current and flashover feedback circuit;

Three-phase 380V AC power is inserted, through air switch three phase mains is delivered to three-phase full-controlled rectifier bridge and drive circuit by outside three-phase input circuit;

Three-phase full-controlled rectifier bridge and drive circuit thereof receive three-phase 380V AC power, by controllable silicon (SCR) full-bridge drive plate circuit (being SCR full-bridge drive plate circuit), and output 0-540V variable DC voltage; The frequency signal that controlled silicon full-bridge drive plate circuit is sent two high-low pressure integratedization of CPU controllers here is converted to silicon controlled conducting phase signal, the different different DC voltages of conducting phase place output;

The DC voltage of three-phase full-controlled rectifier bridge and drive circuit output thereof is delivered to before gated transistor (IGBT) inversion and drive circuit (being IGBT inversion and the drive circuit) circuit, at first be added on the dc bus circuit, the dc bus circuit reduces reach the standard grade inductance value between the row of DC line, causes damaging otherwise the due to voltage spikes that causes under the big current changing rate will puncture gated transistor;

Gated transistor inversion and drive circuit convert the low-voltage DC of input to the low pressure high-frequency alternating current, the low pressure high-frequency alternating current is delivered to the high-frequency step-up transformer primary coil, and the driving signal of gated transistor inversion and drive circuit is from two high-low pressure integratedization of the CPU controllers after isolating through gated transistor drive plate circuit (being IGBT drive plate circuit);

High-frequency step-up transformer the low-voltage high-frequency alternating current of primary coil input convert to secondary coil output the high voltage high-frequency alternating current, through high frequency silicon stack rectification circuit the high-frequency and high-voltage alternating current is converted to high voltage direct current, input to secondary voltage, secondary current and flashover feedback circuit, form the feedback signal of high-frequency and high-voltage power supply running status, deliver to two high-low pressure integratedization of CPU controllers as input signal to reach closed-loop control;

Temperature control, heating, rapping and defeated grey control circuit are connected with two high-low pressure integratedization of CPU controllers.

As shown in Figure 2, controlled silicon full-bridge drive plate circuit described in the utility model is made up of three controllable silicon half-bridge modules and controllable silicon drive plate; Controlled silicon full-bridge drive plate circuit is the FREQUENCY CONTROL voltage regulating mode, and the DC voltage output area is 0-540V, and incoming frequency rising rectifier output voltage also raises synchronously, and frequency reduces the also corresponding decline of rectifier output voltage; The output of adopting the voltage-type Hall element is as feedback signal;

The controllable silicon half-bridge module adopts the 300A-500A/1600V specification, and supporting aluminium radiator is given three module heat dissipatings, the air quantity when wind regime uses the running of oil cooling blower fan;

As clock input signal, three phase informations are also delivered to No. three counter circuits as the zero clearing periodic signal to the pulse signal that controllable silicon driver module reception optical fiber is sent here simultaneously to No. three counter circuits; Level is the trigger impulse that No. 6 pierce circuits are used to produce fixed width behind the circuit, and other No. one oscillator produces thready pulse modulated 6 and has a lot of social connections pulse so that pulse transformer; No. 6 pierce circuits receive the output of front three road counter chips, produce the triggering signal of respective phase.

As shown in Figure 1, gated transistor inversion described in the utility model and drive circuit comprise: DC voltage-stabilizing electric capacity between full-bridge gated transistor circuit in parallel, dc bus, bus, gated transistor drive plate circuit, and the aluminium matter oil cooling plate of cooling gated transistor module;

Full-bridge gated transistor circuit in parallel is made of three class full-bridge gated transistor modules, second class gated transistor full-bridge circuit that is respectively the first kind gated transistor full-bridge module formed by two half-bridge gated transistor modules, composes in parallel in twos by four gated transistor half-bridge modules and the 3rd class gated transistor full-bridge circuit that composes in parallel by six half-bridge gated transistor modules three or three; Full-bridge gated transistor circuit in parallel reaches export resonance current peak 400A, 800A, 1200A and above power demand;

Parallel connection direct electric capacity of voltage regulation on the dc bus dynamically provides corresponding electric current output;

Aluminium matter oil cooling plate size is determined area of dissipation and heat-conducting medium flow according to the thermal power size;

The effect of described gated transistor inverse changing driving circuit is under the normal switch frequency, drives full-bridge gated transistor circuit operate as normal in parallel, is made of driver module 2SD315, driver module 2SD300C17 and driver module 2SC0650P; Driver module 2SD315 provides 3W power drive first kind gated transistor full-bridge module, and 2SD300C17 provides the 4W power drive the second class gated transistor full-bridge module, and 2SC0650P provides the 6W power drive the 3rd class gated transistor full-bridge module.

High-frequency step-up transformer described in the utility model partly is made of magnetic core part and skeleton; Comprise primary winding and secondary coil;

It is two kinds of EE320 and EE480 that the high-frequency step-up transformer magnetic core is partly selected model for use, and the EE320 magnetic core of two width of cloth parallel connections is at the specification of power output less than 80kW; Specification is divided two kinds in parallel of the in parallel and fourth officer of three width of cloth, the following and specification more than the 120kW of corresponding power output 120kW respectively for the EE480 magnetic core;

Coil bag skeleton adopts materials such as polytetrafluoroethylplastic plastic, oven dry cardboard or epoxy sheet material, guarantees enough support strength and insulating capacity, the cylinder outer wall notching construction; Skeleton adopts multi-groove structure;

The primary winding copper cash adopts the sheet copper coiling, draws with the multiply litz wire; Keep enough spaces and form the oil circuit heat radiation outward between primary winding inwall and the core center post, between the skeleton of primary winding outer wall and secondary coil;

The secondary coil copper cash adopts the coiling in the same way of frequency conversion enamel covered wire, adopts Kapton and Du Pont high insulation NOMEX paper to do interlayer dielectic; Keep enough insulation distances between secondary coil periphery and the magnetic core.

As shown in Figure 1, in secondary voltage secondary current described in the utility model and the flashover feedback circuit:

The secondary current sampling adopts Hall current sensor to detect secondary current, and reduced form also can directly adopt low resistance resistance directly to detect;

The secondary voltage signal is taken from the magnitude of voltage on the equalizing resistance in parallel on the high-voltage capacitance;

Flashover signal is taken from current Hall and is detected the high-voltage capacitance signal that sparks, in the signal response time 1us.

As shown in Figure 1, be optical fiber interface between controlled silicon full-bridge drive plate circuit described in the utility model and two high-low pressure integratedization of the CPU controller;

Between gated transistor drive plate circuit and two high-low pressure integratedization of the CPU controller is winding displacement interface or optical fiber interface; Winding displacement directly drives the IGBT drive plate, and optical fiber interface is 10 road optical fiber input/output interfaces, and fiber-optic signal divides 6 tunnel outputs, 4 tunnel inputs;

Two high-low pressure integratedization of CPU controllers provide 16 road input signals, and input signal is for exchanging or direct current 24V; Input signal comprises: start and stop, low-voltage equipment running status feedback etc. are switched, are closely controlled in far and near control;

Two high-low pressure integratedization of CPU controllers provide No. 12 relay output signals, and driving arrangement comprises: anode electric motor of shaker, cathode rapping motor, electric heater, machine for zipper, low-voltage equipments such as defeated grey discharger; The operation of high frequency electric source, fault, tripped condition are also exported by relay.

Two high-low pressure integratedization of CPU controllers have 14 road analog input signals: be respectively 4 road temperature input signals, 4 road 4-20mA input signals, secondary voltage, secondary current input signal, DC bus-bar voltage signal, input ac voltage signal, resonance current signal and flashover lock-on signal;

One road TCP/IP ethernet signal of two high-low pressure integratedization of CPU controllers provides standard MODBUS/TCPIP agreement; One road RS232, one road RS485, one road CAN provide three kinds of communication modes;

Two high-low pressure integratedization of CPU controllers provide two-way transmitter output signal, are convenient to the seamless link with the DCS system;

Two high-low pressure integratedization of CPU controllers provide one tunnel high speed input pulse signal.

The utility model electric precipitation high-frequency and high-voltage power supply is a kind of high and low pressure integration product, compares with power frequency supply, and is energy-conservation, efficient, and saved the control room, ground, and structure is simple more, compact, reasonable.

It should be noted that at last: obviously, the foregoing description only is for the utility model example clearly is described, and is not the qualification to embodiment.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here need not also can't give exhaustive to all embodiments.And conspicuous variation of being amplified out thus or change still are among the protection domain of the present utility model.

Claims (6)

1. an electric precipitation high frequency electric source is characterized in that, described power supply is made of following each several part:

Outside three-phase input circuit, three-phase full-controlled rectifier bridge and drive circuit, gated transistor inversion and drive circuit, dc bus circuit, temperature control, heating, rapping and defeated grey control circuit, two high-low pressure integratedization of CPU controller;

And high-frequency step-up transformer, high frequency silicon stack rectification circuit and secondary voltage secondary current and flashover feedback circuit;

Three-phase 380V AC power is inserted, through air switch three phase mains is delivered to three-phase full-controlled rectifier bridge and drive circuit by outside three-phase input circuit;

Three-phase full-controlled rectifier bridge and drive circuit thereof receive three-phase 380V AC power, by controlled silicon full-bridge drive plate circuit output 0-540V variable DC voltage; The frequency signal that controlled silicon full-bridge drive plate circuit is sent two high-low pressure integratedization of CPU controllers here is converted to silicon controlled conducting phase signal;

The DC voltage of three-phase full-controlled rectifier bridge and drive circuit output thereof at first is added on the dc bus circuit before delivering to gated transistor inversion and drive circuit;

Gated transistor inversion and drive circuit convert the low-voltage DC of input to the low pressure high-frequency alternating current, the low pressure high-frequency alternating current is delivered to the high-frequency step-up transformer primary coil, and the driving signal of gated transistor inversion and drive circuit is from two high-low pressure integratedization of the CPU controllers after isolating through gated transistor drive plate circuit;

High-frequency step-up transformer the low-voltage high-frequency alternating current of primary coil input convert to secondary coil output the high voltage high-frequency alternating current, through high frequency silicon stack rectification circuit the high-frequency and high-voltage alternating current is converted to high voltage direct current, input to secondary voltage, secondary current and flashover feedback circuit, form the feedback signal of high-frequency and high-voltage power supply running status, deliver to two high-low pressure integratedization of CPU controllers as input signal;

Temperature control, heating, rapping and defeated grey control circuit are connected with two high-low pressure integratedization of CPU controllers.

2. electric precipitation high frequency electric source as claimed in claim 1 is characterized in that: described controlled silicon full-bridge drive plate circuit is made up of three controllable silicon half-bridge modules and controllable silicon drive plate; Controlled silicon full-bridge drive plate circuit is the FREQUENCY CONTROL voltage regulating mode, and the DC voltage output area is 0-540V, and incoming frequency rising rectifier output voltage also raises synchronously, and frequency reduces the also corresponding decline of rectifier output voltage; The output of adopting the voltage-type Hall element is as feedback signal;

The controllable silicon half-bridge module adopts the 300A-500A/1600V specification, and supporting aluminium radiator is given three module heat dissipatings, the air quantity when wind regime uses the running of oil cooling blower fan;

As clock input signal, three phase informations are also delivered to No. three counter circuits as the zero clearing periodic signal to the pulse signal that controllable silicon driver module reception optical fiber is sent here simultaneously to No. three counter circuits; Level is the trigger impulse that No. 6 pierce circuits are used to produce fixed width behind the circuit, and other No. one oscillator produces thready pulse modulated 6 and has a lot of social connections pulse so that pulse transformer; No. 6 pierce circuits receive the output of front three road counter chips, produce the triggering signal of respective phase.

3. electric precipitation high frequency electric source as claimed in claim 2, it is characterized in that described gated transistor inversion and drive circuit comprise: DC voltage-stabilizing electric capacity between full-bridge gated transistor circuit in parallel, dc bus circuit, bus, gated transistor drive plate circuit, and the aluminium matter oil cooling plate of cooling gated transistor module;

Full-bridge gated transistor circuit in parallel is made of three class full-bridge gated transistor modules, second class gated transistor full-bridge circuit that is respectively the first kind gated transistor full-bridge module formed by two half-bridge gated transistor modules, composes in parallel in twos by four gated transistor half-bridge modules and the 3rd class gated transistor full-bridge circuit that composes in parallel by six half-bridge gated transistor modules three or three; Full-bridge gated transistor circuit in parallel reaches export resonance current peak 400A, 800A, 1200A and above power demand;

Parallel connection direct electric capacity of voltage regulation on the dc bus;

Described gated transistor inverse changing driving circuit under the normal switch frequency, drive full-bridge gated transistor circuit operate as normal in parallel, constitute by driver module 2SD315, driver module 2SD300C 17 and driver module 2SC0650P; Driver module 2SD315 provides 3W power drive first kind gated transistor full-bridge module, and 2SD300C17 provides the 4W power drive the second class gated transistor full-bridge module, and 2SC0650P provides the 6W power drive the 3rd class gated transistor full-bridge module.

4. electric precipitation high frequency electric source as claimed in claim 3 is characterized in that: described high-frequency step-up transformer partly is made of magnetic core part and skeleton; Comprise primary winding and secondary coil;

It is two kinds of EE320 and EE480 that the high-frequency step-up transformer magnetic core is partly selected model for use, and the EE320 magnetic core of two width of cloth parallel connections is at the specification of power output less than 80kW; Specification is divided two kinds in parallel of the in parallel and fourth officer of three width of cloth, the following and specification more than the 120kW of corresponding power output 120kW respectively for the EE480 magnetic core;

Coil bag skeleton adopts materials such as polytetrafluoroethylplastic plastic, oven dry cardboard or epoxy sheet material, guarantees enough support strength and insulating capacity, the cylinder outer wall notching construction; Skeleton adopts multi-groove structure;

The primary winding copper cash adopts the sheet copper coiling, draws with the multiply litz wire; Keep enough spaces and form the oil circuit heat radiation outward between primary winding inwall and the core center post, between the skeleton of primary winding outer wall and secondary coil;

The secondary coil copper cash adopts the coiling in the same way of frequency conversion enamel covered wire, adopts Kapton and Du Pont high insulation NOMEX paper to do interlayer dielectic; Keep enough insulation distances between secondary coil periphery and the magnetic core.

5. electric precipitation high frequency electric source as claimed in claim 4 is characterized in that, in secondary voltage secondary current and the flashover feedback circuit:

The secondary current sampling adopts Hall current sensor to detect secondary current;

The secondary voltage signal is taken from the magnitude of voltage on the equalizing resistance in parallel on the high-voltage capacitance;

Flashover signal is taken from current Hall and is detected the high-voltage capacitance signal that sparks, in the signal response time 1us.

6. electric precipitation high frequency electric source as claimed in claim 5 is characterized in that:

Between controlled silicon full-bridge drive plate circuit and two high-low pressure integratedization of the CPU controller is optical fiber interface;

Between gated transistor drive plate circuit and two high-low pressure integratedization of the CPU controller is winding displacement interface or optical fiber interface; Winding displacement directly drives the IGBT drive plate, and optical fiber interface is 10 road optical fiber input/output interfaces, and fiber-optic signal divides 6 tunnel outputs, 4 tunnel inputs;

Two high-low pressure integratedization of CPU controllers provide 16 road input signals, and input signal is for exchanging or direct current 24V; Input signal comprises: start and stop, low-voltage equipment running status feedback etc. are switched, are closely controlled in far and near control;

Two high-low pressure integratedization of CPU controllers provide No. 12 relay output signals;

Two high-low pressure integratedization of CPU controllers have 14 road analog input signals: be respectively 4 road temperature input signals, 4 road 4-20mA input signals, secondary voltage, secondary current input signal, DC bus-bar voltage signal, input ac voltage signal, resonance current signal and flashover lock-on signal;

One road TCP/IP ethernet signal of two high-low pressure integratedization of CPU controllers provides standard MODBUS/TCPIP agreement; One road RS232, one road RS485, one road CAN provide three kinds of communication modes;

Two high-low pressure integratedization of CPU controllers provide two-way transmitter output signal;

Two high-low pressure integratedization of CPU controllers provide one tunnel high speed input pulse signal.

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