RU2450405C1 - Rectifying voltage stabiliser - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: rectifying voltage stabiliser is intended for conversion of three-phase AC 380 V, 50 Hz into DC voltage 27 V to supply different loads in electric systems for wheel- and track-mounted mobile control complexes. Article is intended for operation in conditions of group 1.3, 1.4.1 as per GOST RV 20.39.304-98 with limitation of low operating temperature of - 233 K (minus 40°C). Device has connectors purposed for article switching to three-phase mains, for remote switching on/off of article and uniting of several current sensors at combined action for total load and for voltage drop compensation at interconnecting wires, fuse-holders for 10 A, ground terminal, clamp connections 27 V doe load connection to rectifying voltage stabiliser.

EFFECT: possibility of rectifying voltage stabiliser connection for parallel operation, voltage drop compensation at interconnecting wires, high reliability of article in severe environment, high efficiency factor, built-in control of output voltage and load current, possibility of load connection with any grounded pole.

2 cl, 5 dwg

Description

Technical field

This technical solution relates to the field of conversion and distribution of electricity, for example, in automated control systems.

State of the art

An analogue of this technical solution is a LOW VOLTAGE COMPLETE DEVICE (patent (certificate) No. 26695 for a utility model, application 2002122293/20 of 08.23.2002, IPC7 Н02Н 7/06, registration on 10.12.2002, Bull. 34, applicant of JSC Cheboksary Electric Appliance Plant ”), containing the first, second and third input terminals for supplying input voltage, the first, second and third output terminals for supplying output voltage to the equipment terminals, three-phase switch, the input terminals of which are connected to the corresponding input terminals, the first start-up spruce, the first and second input terminals of which are connected respectively to the first and second output terminals of the three-phase switch, and the output terminals are connected to the corresponding output terminals of the line voltage, as well as the automation unit, containing the first and second terminals of the automation unit, the winding of the first relay, as well as the first , the second third and fourth NC contacts and the first, second and third NO contacts, characterized in that the thermal relay winding is introduced, the first terminal of which is connected to the third output terminal th three-phase switch, and the output terminal is connected to the third input terminal of the first starter, the second starter, the winding of which is the winding of the second relay, and the first, second and third input terminals of which are connected respectively to the first, second and third input terminals of the first starter, whose winding is winding of the first relay, and the first, second and third output terminals of which are connected respectively to the first, second and third output terminals of the first starter, and the first and second the resistors, the fourth NO contact and the fifth NO contact, while the first terminal of the automation unit is connected to the second terminal of the automation unit via series-connected first NC contact, the first NO contact, the first resistor, the second NO contact and the winding of the second relay, the third terminal of the automation unit is connected to the second terminal of the automation unit through the third disconnect contact, the second make contact, the second resistor, the fourth make contact and the winding of the first relay, the fourth terminal of the automation unit is connected to the second terminal of the third NC contact via the third NO contact, the fifth terminal of the automation unit is connected to the fourth terminal of the automation unit via the fourth NO contact, and the sixth terminal of the automation unit is connected to the fifth terminal of the automation unit via the fifth NC contact, when this second closing, second opening, fourth closing and fifth opening contacts are controlled by the winding of the first relay, the first closing, third closing opening and the fourth opening contact is controlled by the winding of the second relay, and the first opening contact is controlled by the winding of the thermal relay.

The disadvantage of this analogue is the small functionality that does not allow to realize the given requirements.

Another analogue of the claimed technical solution is a LOW VOLTAGE COMPLETE DEVICE (patent (certificate) No. 26696 for utility model, application 2002122294/20 of 08.23.2002, IPC7 Н02Н 7/06, registration 10.12.2002, Bul. 34, applicant applicant “Cheboksary Electric Appliance Plant”), containing the first, second and third input terminals for supplying input voltage, the first, second and third output terminals for supplying output voltage to the equipment terminals, a three-phase switch, the input terminals of which are connected to the corresponding input terminals, the first starter, the first and second input terminals of which are connected respectively to the first and second output terminals of the three-phase switch, as well as an automation unit containing the winding of the second relay, as well as the first, second, third and fourth NC contacts and the first, second and third NO contacts, characterized the fact that the thermal relay winding is introduced, the first terminal of which is connected to the third output terminal of the three-phase switch, and the output terminal is connected to the third input terminal of the first starter, the second starter, whose winding is the winding of the second relay, and the first, second and third input terminals of which are connected respectively to the first, second and third input terminals of the first starter, whose winding is the winding of the first relay, and the first, second and third output terminals are connected respectively to the first, second and the third output terminals of the first starter, the third starter, the first, second and third input terminals of which are connected respectively to the first, second and third output terminals of the first starter, the first, second and t the output terminals are connected respectively to the first, second, and third output terminals, and the first and second resistors, a fuse, the windings of the third, fourth, and fifth relays, the fourth, fifth, and sixth closing contacts, and the fifth, sixth, seventh, and eighth breaking contacts are introduced into the automation unit contacts, while the first terminal of the automation unit is connected to the second terminal of the automation unit via series-connected first make contact, in parallel with which the second make contact, the first break contact CT, the second NC contact, the winding of the first relay and the third NC contact, the second terminal of the thermal relay winding is connected to the first terminal of the third NC contact through a series-connected fuse and the coil of the fourth relay, in parallel with which the sixth NC contact is connected in series, the third NO contact, in parallel to which connected fourth make contact, fifth make contact, winding of the third relay, the third terminal of the automation unit is connected to the second terminal automation lock through the winding of the second relay, the fourth terminal of the automation block is connected to the second terminal of the automation block through the winding of the fifth relay, the fifth terminal of the automation block is connected to the second terminal of the automation block through the first resistor and the seventh NC contact connected in series, the sixth terminal of the automation block is connected to the second terminal the automation unit through a second resistor connected in series, an eighth opening contact, the seventh terminal of the automation unit is connected to the second terminal of the first resistor torus through the fifth NO contact, and with the second terminal of the second resistor through the sixth NO contact, the first starter, the first NO contact, the fifth NO contact, the sixth NO contact and the eighth NO contact controlled by the winding of the first relay, the second NO contact, the first NO contact, the fourth the NC contact and the fourth NO contact are controlled by the winding of the second relay, the second starter, the second NO contact, the third NO contact, the seventh NO contact and the fifth amykayuschy contact controlled by relay winding of the third, sixth control winding NC contact of the thermal switch, a third normally closed contact and the third actuator controlled by an external switch.

The disadvantage of this analogue is the small functionality.

The next analogue of the proposed technical solution is the DEVICE FOR AUTOMATIC TURNING THE RESERVE (patent (certificate) No. 26701 for a utility model, application 2002123133/20 of 04.09.2002, IPC7 H02J 13/00, registration on 10.12.2002, Bul. 34, applicant Cheboksary Electric Appliance Plant OJSC), containing a three-phase, with a zero wire first input of the network, relays of the first, second and third phases, the windings of which are connected between the corresponding phases and the zero wire of the first input of the network, a voltage control relay of the first input of the network, the winding of which is connected between the first phase of the first input of the network and the neutral wire through series-connected make contacts of the relays of the second and third phases, the three-phase with the neutral wire the second input of the network, the state relay of the first input, the winding of which is connected in series with the disconnect contacts of the relays of the first, second and third phases connected in parallel between the third phase and the neutral wire of the second input, in addition, a reliable power bus, the phases of which are connected through the corresponding closing contacts of the voltage monitoring relay of the first water of the network with the corresponding phases of the first input of the network, and through the corresponding make contacts of the state relay of the first input - with the corresponding phases of the second input of the network, characterized in that three disconnect contacts of the first input of the network are introduced, each of which is connected between the corresponding phases of the diesel generator unit and reliable power tires.

The disadvantage of this analogue is the small functionality that does not allow to realize the given technical requirements in full.

The next analogue of the proposed technical solution is the DISTRIBUTION PANEL (patent RU 60797 U1 for utility model, application 2006138211/22 of 10.31.2006, IPC Н02В 13/00, applicant Closed Joint-Stock Company Electrotechnical Plant "HEXAR" CJSC ETZ "HEXAR", registration January 27, 2007).

1. Distribution panel, consisting of a housing, while inside the housing there are three-phase power transformers, relays, fuses, power transformers, power devices, switching and protective devices, characterized in that the primary and secondary windings of the three-phase power transformers are connected in a "triangle- star ", while between the primary and secondary windings of power three-phase transformers a single-layer winding is grounded on the housing, an individual light indicator is additionally introduced fuse fuse insertion, and at least one of the power transformers has a thermal limiter connected in series with its primary winding.

2. The panel according to claim 1, characterized in that as an individual light indication, LEDs are used, each of which is connected in series with the circuit of each fuse.

3. The panel according to claim 2, characterized in that the LEDs are mounted on a board located horizontally above the fuses.

4. The panel according to claim 1, characterized in that it is equipped with a current clamp meter-multimeter AC / DC.

5. The panel according to claim 1, characterized in that galvanized squares are installed at the bottom of the case to provide grounding of the cases of power three-phase transformers.

The disadvantage of this analogue are:

- small functionality that does not allow to realize the requirements of the technical specifications in full;

- insufficient reliability of the functioning of the electrically supplied product.

The next analogue (prototype) of the claimed technical solution is a DISTRIBUTION ELECTRICITY SUPPLY DEVICE (patent RU 67787 U1 for utility model, application 2007127204 dated July 16, 2007, IPC Н02В 13/00, PUBLISHED on 10.27.2007, BULL. No. 30), consisting from the main power panel (“Power-Up Panel”), the three inputs of which are connected respectively to the three inputs of the uninterruptible power supply feeders (“UPS FEED IN”), non-guaranteed power supply (“Non UPS FEED IN”) and the backup main power supply (“MAIN FEED” RESERVE IN ”), a three outputs connected respectively to the outputs of the emergency lighting device ( “EMERGENCY LIGHTING”), external sockets (“SOCKET”) and fire alarm (“FIRE SIGNALIZING”), alternating current panel (“AC Panel”), two inputs of which are connected respectively to two outputs of the main power panel: UPS uninterruptible power supply output (“UPS OUT”) and non-guaranteed power output (“Non UPS OUT”), and the outputs are connected to consumers of voltages 220 V and 380 V, DC panels (“DC Panel 28 V”), the four inputs of which are connected respectively to the four inputs devices - with the outputs of an external DC / DC converter (“DC CONVERTER OUT”) 28 V INL1-4, and outputs with are single with the outputs of the 28 V device - the inputs of consumers of voltage 28 V, two uninterruptible power supply units of the UPS (“220 V UPS # 1” and “220 V UPS # 2”), the inputs and outputs of which are connected respectively to the outputs of 220 V and the inputs of the AC panel current, characterized in that the main power panel consists of three control and signaling paths, each of which contains three indicator lamps connected in parallel to the input, one on each phase, a circuit breaker connected in series, an overload protection device, and an normally open circuit contacts of own contactors connected to the phase through normally-locking blocking contacts of adjacent path contactors, voltmeters connected through seven-position switches with three phases of each path, an operating hours counter connected to a phase A circuit and a neutral at the output of the main power panel, three output control circuits , each of which contains a circuit breaker and an indicator lamp connected in parallel to the output, as well as a fire signal connected to the output of the panel of the indicator lamp The AC panel contains several control and signaling circuits, consisting of circuit breakers connected between the input and output and connected to the indicator lamps by the output, an air conditioner power switch, circuit breakers connected to it located between the input and output to the air conditioners, and connected in parallel indicator lamps, an external equipment power switch connected to it sequentially automatically lyuchatel and connected in parallel with one of the phases of the output indicator lamp panel comprises a DC two types of control circuits and displays, consisting of parallel-connected to the input of the indicator lamps, connected in series between the input and output of the circuit breaker and connected to the outlet of indicator lamps.

The disadvantages of this analogue:

- small functionality that does not allow to implement the specified technical requirements;

- unacceptable weight and size parameters.

The closest analogue (prototype) of the claimed technical solution is the POWER SUPPLY SHIELD (utility model patent RU 81602 U1, application 2008148856/22 dated 12/10/2008, IPC Н08В 13/00, published March 20, 2009, Bulletin No. 8, patent holder of OJSC " NPP Rubin, authors Brevnov VV, Vakhrin SV, Mayorov VB, Karjakina LV

1. A POWER SUPPLY CONTROL BOARD, containing a switching unit for BCS networks, four inputs of which are connected to the output of an external power supply and protection unit for a 24 V electric power supply unit, an industrial network and the outputs of Generator 1 and Generator 2, and the first two outputs are with an input of a power supply unit and an output Transit, unit control of the primary network BKPS, the input of which is connected to the first output of the BCS, the phase sequence unit BChF, the input of which is connected to the third output of the BCS, and the output is to "Air conditioning", the block connecting consumers BPP, the input of which is connected to the output BPZE 380/220 V, and two the outputs are connected respectively to the outputs to the uninterruptible power supply IBEP and to the sockets, characterized in that the power control panel further comprises a secondary voltage switching unit BKVN, three inputs of which are connected respectively to the outputs of the rectifier devices VU1 and VU2 and the battery, and eight outputs with eight LINE 1 - LINE 8, the control unit of the secondary network BKVS and the battery charge control unit BKZA, the inputs of which are connected respectively to the ninth and tenth outputs of the switching unit WTO pressure voltage BKVN.

2. The POWER SUPPLY CONTROL PANEL according to claim 1, characterized in that the network switching unit contains three three-phase voltage switching paths, each of which consists of a switch, a contactor and an indicator element, the contactor windings are connected to the 24 V power supply input device, and the contactors contacts are connected respectively with the contacts of the switches, the technical means “TS”, “CONDITIONER” and the computing complex “VK”, the inputs of the switch “TS” are connected to the outputs of the BKPS, and the switches “CONDITIONER” and “VK” are connected respectively with you with the BCF (Air Conditioner) and BCF (VK) strokes, indicator elements, consisting of a series-connected indicator lamp and a resistor, are connected respectively to the output contacts of the TS switch: “PROM. NETWORK ”,“ GENERATOR 1 ”and“ GENERATOR 2 ”.

3. The POWER SUPPLY CONTROL PANEL according to claim 1, characterized in that the primary network control unit comprises an input voltage control voltmeter with parallel connected measurement sockets connected through a switch with BCS, indicator elements consisting of an indicator lamp and a resistor connected to three phases A, B, C, and the indicator element of the vehicle connected to phase A.

4. The POWER SUPPLY CONTROL BOARD according to claim 1, characterized in that the phase sequence unit comprises a Phase Sequence switch connected to two positions A, B, C and B, A, C, and two indicator elements consisting of an indicator lamp and a resistor connected to phase A of the supply voltage of “CONDITIONER” and one of the phases of the supply voltage of “VK” from the BCS.

5. The POWER SUPPLY CONTROL BOARD according to claim 1, characterized in that the consumer connection unit contains two circuit breakers “IBEP” and “Sockets”, switching the supply of power to uninterruptible power supplies “IBEP” and “Sockets”, indicator elements “IBEP” and “Sockets” connected to the output of one of the phases of the corresponding circuit breaker.

6. The POWER SUPPLY CONTROL PANEL according to claim 1, characterized in that the secondary voltage switching unit with the secondary network control unit and the battery charging control unit includes a monitoring and signaling board connected to the inputs “+ VU1”, “+ VU2” and the battery “ + Battery "and the ground bus" -ShZ ", and three diodes through which linear paths are connected to these inputs VU1, VU2 and battery, circuit breakers connected respectively to the outputs of the unit" LINE 1 - LINE 8 ", indicator elements consisting from series connected indicators an ora and a resistor and connected to the outputs of the circuit breakers, a voltmeter, DC voltage control with parallel-connected measuring sockets connected to the SHZ input and a common circuit of the circuit breakers, the operating hours counter "RUN TIME" connected in parallel with the voltmeter, indicator lamps “Battery is discharged”, “Battery OFF” and “Battery operation”, connected to the corresponding outputs of the control and signaling board, electromagnetic capsule, connected to the corresponding contacts of the control and signal board lizings.

7. The POWER SUPPLY CONTROL BOARD according to claim 1, characterized in that the monitoring and signaling board of the secondary voltage switching unit contains a voltage stabilizer, the input of which through the diode is connected to the “+ Battery” input, three paths for monitoring the state of the battery, each consisting of a comparator, on the inputs of which the signal levels + battery from the battery are supplied, and to the other inputs - signals of a given level from the resistor rheostat circuit, the inverter circuit connected to the outputs "Battery discharged", "Battery disconnected" and "Battery operation", respectively a chain of inverters and a transistor output stage connected to the output BF1 for connecting an electromagnetic differential capsule.

The disadvantages of the prototype is the redundancy of functionality, cumbersome and inflexibility, not allowing you to quickly rebuild the structure if necessary.

The essence of the technical solution

The rectifying and stabilizing device is designed to convert an alternating three-phase voltage of 380 V, 50 Hz to a voltage of 27 V DC in power systems of mobile complexes on a wheeled and tracked transport base and containing an input rectifier (mains unit) connected to an input voltage of 380 V, 50 Hz and an output rectifier (output unit) connected to the output of the device 27 V, 60 A DC.

The purpose of creating the claimed technical solution is to develop a rectifying and stabilizing DC device for use in automated control systems located in a mobile vehicle, small weight and size parameters, high reliability, made on a modern circuitry and hardware base.

The device further comprises a standby voltage source, the input of which is connected to the first output of the input rectifier, a ventilation unit, the first input of which is connected to the output of the standby voltage source, a protection unit, the input of which is connected to the output of the output rectifier, and the first output with the second input of the ventilation unit, pulse a converter, the first input of which is connected to the second output of the input rectifier, and the first output with the input of the output rectifier, a feedback unit, the two inputs of which are connected respectively with the second output of the pulse converter and the output of the output rectifier, and the input-output with a current equalization bus, a pulse-width modulation controller, two inputs of which are connected respectively to the second output of the protection unit and the output of the feedback unit, and the output is to the second input of the pulse converter.

As part of the pulse converter, the device contains an inverter board, to which the "Network ~ 380 V, 50 Hz" connector is connected, the indicators "~ 380 V", "A", "B", "C", "VOLTAGE INDICATOR", and "POWER SUPPLY" indicators 27 V ”,“ OVERHEAT ”, connector“ REMOTE CONTROL ”, two fans, terminals 27 V,“ + ”,“ - ”and ground terminals“ ^⊥ ”, as well as a standby voltage source board connected via transitional connectors to the inverter board pulse converter, “PARALLEL OPERATION” connector, connected to the standby voltage source board.

List of figures, drawings and other materials

Figure 1 shows the structural diagram of a rectifier-stabilizing device.

Figure 2 shows a circuit diagram of a rectifier-stabilizing device.

Figure 3 shows a drawing of the front face of the APU.

Figure 4 shows a drawing of the rear panel of the APU.

Figure 5 shows the connection diagram of the APU for parallel operation.

Figure 6 shows a circuit for compensating for the voltage drop across the connecting wires.

An example embodiment of the device

Figure 1 marked: 1 - source of standby voltage; 2 - ventilation unit; 3 - protection unit; 4 - controller pulse width modulation (PWM); 5 - input rectifier (network unit); 6 - pulse converter; 7 - output rectifier (output unit); 8 - feedback block; 9 - voltage input 380 V, 50 Hz; 10 - voltage output 27 V, 60 A; 11 - bus alignment currents.

In figure 2, 3, 4 are additionally indicated: 12 - connector "NETWORK ~ 380 V, 50 Hz"; 13 - indicator lamps "~ 380 V", "A", "B", "C"; 14 - “VOLTAGE INDICATOR”, 15 - indicator “POWER SUPPLY 27 V”; 16 - “OVERHEAT” indicator; 17 - indicator “OVERLOAD”; 18 - connector "REMOTE CONTROL"; 19, 20 - fan A1, A2; 21 - inverter board A3; 22 - board voltage source standby A4; 23 - connector "PARALLEL OPERATION"; 24 - output terminals "27 V"; 25 - ground terminal " ^⊥ ".

The rectifying and stabilizing device (APU) is designed to convert an alternating three-phase voltage of 380 V, a frequency of 50 Hz to a voltage of 27 V DC.

The product is intended for use in the conditions of group 1.3, 1.4.1 according to GOST RV 20.39.304-98 with a limitation on the reduced working temperature - 233 K (minus 40 ° C). Climatic modification O.

Specifications

The main characteristics of the product are given in the table.

Table Options Value 1. External power supply: - three-phase AC network with a nominal voltage level, V 380 - permissible deviations of the supply voltage, V +38, -57 - rated frequency of alternating current, Hz fifty - permissible deviations of the AC frequency, Hz +/- 2.5 2. Secondary network parameters: - rated output voltage level, V 27 - the error in setting the nominal output voltage level. B, no more +/- 0.55 - steady deviation of output voltage at rated load current,%, no more 5 - rated load current, A 60 - time to establish the rated output voltage after connecting an external power source, under normal conditions, s, not more 5 at a temperature below 0 ° C, min, no more 3 - ripple coefficient of the output voltage in the load range from zero to the nominal value,%, no more 2 3. The possibility of parallel inclusion of the APU, no more four 4. Settings for the operation of the protective block - from overcurrent, A 65-80 - thermal protection, ° C 90 - from lowering the input voltage. In less 320 - from increased input voltage, V, more 430 - from increased output voltage 32 5. Temperature instability of the output voltage of the product for every 10 ° C, not more than,% 0.1 6. Efficiency,%, not lower 78.0 7. Operating mode - long 8. Cooling - forced ventilation

Key product parameters:

a) total weight of not more than 7 kg;

b) overall dimensions no more than (226 × 324 × 93) mm.

The device and the principle of operation of the product

The structural diagram of the product is presented in figure 1.

The input three-phase voltage of 380 V, 50 Hz is supplied to the input rectifier, where it is converted to a constant voltage of 515 V. The standby voltage source is designed to provide power to all units except the pulse converter. The block of the pulse converter includes power transistors and a pulse transformer. The control signals from the PWM controller are fed to the gates of the transistors that control the current of the primary winding of the pulse transformer. The pulses of the secondary winding of the transformer are rectified by the output rectifier. The stabilization of the output voltage of 27 V is provided by a feedback unit that controls through the galvanic isolation of the PWM controller. The feedback unit also provides the possibility of parallel connection of several APUs. In this case, it is necessary to combine the equalization signals of the currents of each of the APUs.

Product design

The product is a complete construct. On the front side (figure 2) placed the following display elements:

- “A”, “B”, “C”, signaling the presence of corresponding input phase voltages;

- “OVERHEAT”, signaling overheating;

- “IND. VOL. ”, Signaling an increased or decreased input voltage;

- “OVERLOAD.”, Signaling that the output is overloaded with current or increased voltage at the output terminals of the product;

- “PIT. 27 V ”, indicating the presence of output power voltage.

On the back of the product are:

- “Network ~ 380 V, 50 Hz” connector, designed to connect the product to a three-phase power supply network;

- ground terminal, designed to connect the ground;

- connector “PARALL. WORK ”, designed to combine current sensors of several products when working together for a common load, as well as to compensate for the voltage drop across the connecting wires;

- terminal connections "27 V", designed to connect the load to the APU;

- connector “REMOTE. MANAGEMENT ”, designed to remotely turn on / off the product.

On the top cover of the product there is a bar with the inscription with the serial number.

Industrial applicability

This technical solution is industrially feasible, made on modern electro-radio elements, compact, has minimal weight and size characteristics, allowing it to be used in harsh climatic and operational conditions, in vehicles.

Claims (2)

1. A rectifying and stabilizing device designed to convert an alternating three-phase voltage of 380 V, 50 Hz to a voltage of 27 V DC in power systems of mobile complexes on a wheeled and tracked transport base and containing an input rectifier (mains unit) connected to an input voltage of 380 V , 50 Hz and an output rectifier (output unit) connected to the output of the device 27 V, 60 A DC, characterized in that the device further comprises a standby voltage source, the input of which o connected to the first output of the input rectifier, a ventilation unit, the first input of which is connected to the output of the standby voltage source, a protection unit, the input of which is connected to the output of the output rectifier, and the first output with the second input of the ventilation unit, a pulse converter, the first input of which is connected to the second the output of the input rectifier, and the first output with the input of the output rectifier, a feedback unit, the two inputs of which are connected respectively to the second output of the pulse converter and the output of the output rectifier the mixer, and the input-output with a current equalization bus, a pulse-width modulation controller, two inputs of which are connected respectively to the second output of the protection unit and the output of the feedback unit, and the output is to the second input of the pulse converter. 2. The rectifying and stabilizing device according to claim 1, characterized in that the device includes a inverter board in the composition of the pulse converter, to which the "Network ~ 380 V, 50 Hz" connector is connected, the indicators "~ 380 V", "A", " B "," C "," VOLTAGE INDICATOR ", indicators" POWER 27 V "," OVERHEAT ", connector" REMOTE CONTROL ", two fans, terminals 27 V," + "," - "and ground terminals" ^⊥ ", as well as the standby voltage source board connected via transitional connectors to the inverter board of the pulse converter, “PARALLEL” connector WORK ”connected to the standby voltage source board.

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