CN203350642U

CN203350642U - Intelligent power control system with pre-detection function

Info

Publication number: CN203350642U
Application number: CN2013203438818U
Authority: CN
Inventors: 刘敬彪; 于海滨; 马梁; 陈叶铭; 江晓; 陈中江
Original assignee: Hangzhou Dianzi University
Current assignee: Hangzhou Dianzi University
Priority date: 2013-06-13
Filing date: 2013-06-13
Publication date: 2013-12-18
Anticipated expiration: 2023-06-13

Abstract

The utility model relates to an intelligent power control system with a pre-detection function. The intelligent power control system is characterized in that an MAX3232 chip is used for a real-time communication module, and the real-time communication module is used for communicating with a PC by serial ports and sending and receiving information in real time; an LM358 chip is used for a pre-detection module, and the pre-detection module is used for amplifying and acquiring pre-detection signals and detecting equipment operation conditions without power on; a PT1000 temperature sensor is used for a temperature-controlled heat dissipation module, and the temperature-controlled heat dissipation module is used for controlling heat dissipation of a system by relays according to power supply temperature; a voltage measurement module is used for measuring supply voltage by adoption of a weibo WBV342D01 voltage measurement module; an indicating lamp module is used for displaying heat dissipation conditions and alarm information of the system in real time; a display module is used for displaying supply voltage values in real time; and an STM32 is used for a master control module, and the master control module is used for analyzing and converting monitored signals and the like. The intelligent power control system is advantageous in that heat dissipation of a power box is controlled by temperature measurement, and the intelligent power control system is low in cost, simple in operation and is real-time and reliable.

Description

A kind of intelligent power control system with pre-detection function

Technical field

The utility model belongs to areas of information technology, relates to a kind of intelligent power control system with pre-detection function.

Background technology

Power control system originates from the eighties in last century, because power control system has the reliability height and controls characteristics flexibly, uses shirtsleeve operation can meet numerous requirements of the control to power supply, thereby has obtained preliminary approval.Due to improving constantly of ic manufacturing technology and control technology, power control system is used widely socially, particularly, in some high-tech army industry fields, is especially paid close attention to.

The today improved constantly in electronic message unit industrialization and intelligent level, power control system has been widely used in each electronic information technical field, and great variation has occurred the power supply control field.Along with the attention of power control system is more and more higher, domestic and international various power control systems successively come out, and have brought power control system into the brand-new epoch.Power control system requires to have different functions under different application demands, and the deviser of power control system often neglects the detection for power receiving equipment, before power supply, equipment is carried out to the safety that pre-detection can guarantee staff and equipment, thereby a kind of development with intelligent power control system of pre-detection function just seems and is even more important.

A kind of task with intelligent power control system of pre-detection function is exactly before to power receiving equipment, providing high-tension electricity, first its working condition is carried out to pre-detection, then by the pre-detection signals collecting in control chip, control chip is by calculating and processing to the pre-detection signal, whether the working condition of judgment device, control its work.In addition, main control chip is each data of this power control system of Real-time Collection also, then with PC, communicate, and the staff can control the operation of this power control system on the man-machine interface of PC.In the various aspects of daily productive life, power control system is ubiquitous, everyly will use the appearance that nearly all there is power control system in electric field.Along with the needs of commercial production life are on the increase, also more and more higher to the requirement of power control system, especially under different application demands.Therefore, this research is had and wide development prospect and huge economic worth.

The key issue that native system solves is, before to power receiving equipment, providing high-tension electricity, the working condition of power receiving equipment carried out to pre-detection, and main control chip gathers the pre-detection signal and analyzed, and just predicts the demand of equipment working condition to reach not power supply.

Summary of the invention

In order to guarantee to complete the problem to the pre-detection function of its working condition before to power receiving equipment, providing high-tension electricity, the utility model provides a kind of practicable technical scheme and according to a kind of basic circuit with intelligent power control system of pre-detection function of this scheme constructs.

The technical solution of the utility model is as follows:

The utility model comprises main control module, pre-detection module, voltage measurement module, temperature controlled radiating module, real-time communication module, display module, indicating lamp module, power module.

Power module circuitry comprises a power interface J1, power conversion chip IC1, diode D1, light emitting diode D2, resistance R 1, two electrochemical capacitor C1 and C2, five ceramic disc capacitor C3, C4, C5, C6 and C7, two inductance L 1 and L2.1 pin of power interface J1 is as the 12V voltage input end; 3 pin of power interface J1 are as the pre-detection voltage input end; The 4 pin ground connection of power interface J1; The anode of diode D2 is connected with 2 pin of power interface J1 as the 5V voltage input end, after the end parallel connection of the negative electrode of diode D1 and ceramic disc capacitor C3, with an end of inductance L 1, is connected; After the end of the other end of inductance L 1 and ceramic disc capacitor C4 and the anode parallel connection of electrochemical capacitor C1, with 3 pin of power conversion chip IC1, be connected; The 1 pin ground connection of power conversion chip IC1; 2 pin of power conversion chip IC1 are as the 3.3V voltage output end, with after an end parallel connection of the anode of the end of ceramic disc capacitor C5, electrochemical capacitor C2 and resistance R 1, with an end of inductance L 2, are connected; The anodic bonding of the other end of resistance R 1 and light emitting diode D2; The other end of inductance L 2 is the 3.3VREF voltage output end, in parallel with the end of the end of ceramic disc capacitor C6 and ceramic disc capacitor C7; The other end of the negative electrode of electrochemical capacitor C1, C2, ceramic disc capacitor C3, C4, C5, C6, C7, the negative electrode of light emitting diode D2 be ground connection all, and described power conversion chip IC1 model is AMS1117-3.3V.

The main control module circuit is comprised of main control chip IC2, crystal oscillator XTAL, resistance R 23, eight ceramic disc capacitor C22, C23, C24, C25, C26, C28, C29 and C30.6 pin of main control chip IC2 are connected with the 3.3V voltage output end in power module circuitry; After the end parallel connection of 12 pin of main control chip IC2 and ceramic disc capacitor C29, with the end of crystal oscillator XTAL, be connected, after the end parallel connection of 13 pin of main control chip IC2 and ceramic disc capacitor C30, with the other end of crystal oscillator XTAL, be connected, the other end of ceramic disc capacitor C29 and C30 is ground connection all; After 11 pin of main control chip IC2,28 pin, 50 pin, 75 pin and 100 pin parallel connections, with the end of ceramic disc capacitor C22, C23, C24, C25, C26 is in parallel, also with the 3.3V voltage output end in power module circuitry, be connected; After 10 pin of main control chip IC3,27 pin, 49 pin, 74 pin and 99 pin parallel connections and the other end earth of ceramic disc capacitor C22, C23, C24, C25, C26; 19 pin of main control chip IC3,20 pin and 94 pin ground connection; 21 pin of main control chip IC2 are connected with the 3.3VREF voltage output end in power module circuitry; 22 pin of main control chip IC2 with after the other end parallel connection of ceramic disc capacitor C28, with the 3.3V voltage output end in power module circuitry, be connected, the other end ground connection of ceramic disc capacitor C28; 37 pin of main control chip IC2 are connected with an end of resistance R 23, the other end ground connection of resistance R 23, and main control chip IC2 model is STM32F103VCT6.

The pre-detection modular circuit is comprised of an operational amplifier IC3, equipment interface M1, relay K 7, a triode Q7, four diode D3, D4, D5 and D6, seven resistance R 13, R14, R15, R22, R58, R65 and R66, electrochemical capacitor C38.1 pin of triode Q7 with after the anode parallel connection of electrochemical capacitor C38, with an end of resistance R 65, be connected; 2 pin of triode Q7 and ground connection after the negative electrode of electrochemical capacitor C38 is in parallel; 3 pin of triode Q7 with after the anode parallel connection of diode D6, with 5 pin of relay K 7, be connected; After one end parallel connection of the other end of resistance R 65 and resistance R 66, with 88 pins of main control chip in the main control module circuit, be connected; The other end ground connection of resistance R 66; The negative electrode of diode D6 is connected with 4 pin of relay K 7 with after 12V input end parallel connection in power module circuitry; 1 pin of relay K 7 is connected with the negative electrode of diode D3, and the anode of diode D3 is connected with the negative electrode of diode D4, and the anode of diode D4 is connected with the negative electrode of diode D5, and the anode of diode D5 is connected with the pre-detection voltage input end in power module circuitry; 3 pin of relay K 7 are connected with 1 pin of equipment interface M1; Be connected the other end ground connection of resistance R 58 after one end parallel connection of 2 pin of equipment interface M1 and resistance R 58 with an end of resistance R 22; The other end of resistance R 22 is connected with 3 pin of operational amplifier; After one end parallel connection of 2 pin of operational amplifier and resistance R 14, with an end of resistance R 13, be connected; After one end parallel connection of 1 pin of operational amplifier IC3 and resistance R 15, with the other end of resistance R 13, be connected; 8 pin of operational amplifier are connected with the 5V input end in power module circuitry; 4 pin of operational amplifier, the other end ground connection of resistance R 14; The other end of resistance R 15 is connected with 15 pins of main control chip in the main control module circuit, and described operational amplifier IC3 model is LM358.

Voltage measurement module is comprised of an interface J2, six voltage measurement sensor ICs 4, IC5, IC6, IC7, IC8 and IC9,20 resistance R 29, R30, R31, R32, R33, R34, R36, R38, R39, R40, R42, R44, R45, R46, R47, R48, R52, R53, R54 and R55.2 pin of voltage measurement sensor IC 4 are connected with an end of resistance R 34; 3 pin of voltage measurement sensor IC 4 are connected with an end of resistance R 54, after an end parallel connection of the other end of resistance R 54 and resistance R 55, with 34 pin of main control chip IC2 in the main control module circuit, are connected; 5 pin of voltage measurement sensor IC 4 are connected with the 12V input end in power module circuitry; The other end of 1 pin of voltage

measurement sensor IC

4,4 pin and resistance R 55 is ground connection all; The other end of resistance R 34 is connected with 1 pin of interface J2; 2 pin of voltage measurement sensor IC 5 are connected with an end of resistance R 33; 3 pin of voltage measurement sensor IC 5 are connected with an end of resistance R 52, after an end parallel connection of the other end of resistance R 52 and resistance R 53, with 33 pin of main control chip IC2 in the main control module circuit, are connected; 5 pin of voltage measurement sensor IC 5 are connected with the 12V input end in power module circuitry; The other end of 1 pin of voltage

measurement sensor IC

5,4 pin and resistance R 53 is ground connection all; The other end of resistance R 33 is connected with 2 pin of interface J2; 2 pin of voltage measurement sensor IC 6 are connected with an end of resistance R 32; 3 pin of voltage measurement sensor IC 6 are connected with an end of resistance R 47, after an end parallel connection of the other end of resistance R 47 and resistance R 48, with 32 pin of main control chip IC2 in the main control module circuit, are connected; 5 pin of voltage measurement sensor IC 6 are connected with the 12V input end in power module circuitry; The other end of 1 pin of voltage

measurement sensor IC

6,4 pin and resistance R 48 is ground connection all; The other end of resistance R 32 is connected with 3 pin of interface J2; 2 pin of voltage measurement sensor IC 7 are connected with an end of resistance R 31; 3 pin of voltage measurement sensor IC 7 are connected with an end of resistance R 45, after an end parallel connection of the other end of resistance R 45 and resistance R 46, with 31 pin of main control chip IC2 in the main control module circuit, are connected; 5 pin of voltage measurement sensor IC 7 are connected with the 12V input end in power module circuitry; The other end of 1 pin of voltage

measurement sensor IC

7,4 pin and resistance R 46 is ground connection all; The other end of R31 is connected with 4 pin of interface J2; 2 pin of voltage measurement sensor IC 8 are connected with an end of resistance R 30; 3 pin of voltage measurement sensor IC 8 are connected with an end of resistance R 42, after an end parallel connection of the other end of resistance R 42 and resistance R 44, with 30 pin of main control chip IC2 in the main control module circuit, are connected; 5 pin of voltage measurement sensor IC 8 are connected with the 12V input end in power module circuitry; The other end of 1 pin of voltage

measurement sensor IC

8,4 pin and resistance R 44 is ground connection all; The other end of resistance R 30 is connected with 5 pin of interface J2; 2 pin of voltage measurement sensor IC 9 are connected with an end of resistance R 29; 3 pin of voltage measurement sensor IC 9 are connected with an end of resistance R 39, after an end parallel connection of the other end of resistance R 39 and resistance R 40, with 35 pin of main control chip IC2 in the main control module circuit, are connected; 5 pin of voltage measurement sensor IC 9 are connected with the 12V input end in power module circuitry; The other end of 1 pin of voltage

measurement sensor IC

9,4 pin and resistance R 40 is ground connection all; The other end of resistance R 29 is connected with 6 pin of interface J2; 7 pin of interface J2 are connected with an end of resistance R 36; After one end parallel connection of the other end of resistance R 36 and resistance R 38, with 29 pin of main control chip IC2 in the main control module circuit, be connected; 8 pin of interface J2, the other end ground connection of resistance R 38, described voltage measurement sensor IC 4, IC5, IC6, IC7, IC8 and IC9 model are WBV342D01.

The temperature controlled radiating modular circuit is by a temperature sensor interface J3, two fan interface J4 and J5, six relay K 1, K2, K3, K4, K5 and K6, six triode Q1, Q2, Q3, Q4, Q5 and Q6, six diode D7, D8, D9, D10, D11 and D12, 18 resistance R 1, R2, R3, R4, R6, R7, R8, R9, R10, R11, R12, R21, R25, R26, R27, R28, R35 and R41, six electrochemical capacitor C8, C9, C10, C21, C27 and C31 form.1 pin of temperature sensor interface J3 is connected with 26 pin of main control chip IC2 in the main control module circuit with after resistance R 1 parallel connection; 2 pin of temperature sensor interface J3 are connected with 25 pin of main control chip IC2 in the main control module circuit with after resistance R 2 parallel connections; 3 pin of temperature sensor interface J3 are connected with 24 pin of main control chip IC2 in the main control module circuit with after resistance R 3 parallel connections; 4 pin of temperature sensor interface J3 are connected with 18 pin of main control chip IC2 in the main control module circuit with after resistance R 4 parallel connections; 5 pin of temperature sensor interface J3 are connected with 17 pin of main control chip IC2 in the main control module circuit with after resistance R 7 parallel connections; 6 pin of temperature sensor interface J3 are connected with 16 pin of main control chip IC2 in the main control module circuit with after resistance R 21 parallel connections; After the other end parallel connection of resistance R 1, R2, R3, R4, R7 and R21, with the 3.3V output terminal in power module circuitry, be connected; 7 pin of temperature sensor interface J3 and 8 pin ground connection; 1 pin of triode Q1 with after the anode parallel connection of electrochemical capacitor C8, with an end of resistance R 6, be connected; 2 pin of triode Q1 and ground connection after the negative electrode of electrochemical capacitor C8 is in parallel; 3 pin of triode Q1 with after the anode parallel connection of diode D7, with 5 pin of relay K 1, be connected; After one end parallel connection of the other end of resistance R 6 and resistance R 10, with 82 pins of main control chip in the main control module circuit, be connected; The other end ground connection of resistance R 10; The negative electrode of diode D7 is connected with 4 pin of relay K 1 with after 12V input end parallel connection in power module circuitry; 1 pin of relay K 1 is connected with 1 pin of relay interface J4 with after 12V input end parallel connection in power module circuitry; 3 pin of relay K 1 are connected with 2 pin of relay interface J4; 1 pin of triode Q2 with after the anode parallel connection of electrochemical capacitor C9, with an end of resistance R 8, be connected; 2 pin of triode Q2 and ground connection after the negative electrode of electrochemical capacitor C9 is in parallel; 3 pin of triode Q2 with after the anode parallel connection of diode D8, with 5 pin of relay K 2, be connected; After one end parallel connection of the other end of resistance R 8 and resistance R 11, with 83 pins of main control chip in the main control module circuit, be connected; The other end ground connection of resistance R 11; The negative electrode of diode D8 is connected with 4 pin of relay K 2 with after 12V input end parallel connection in power module circuitry; 1 pin of relay K 2 is connected with 3 pin of relay interface J4 with after 12V input end parallel connection in power module circuitry; 3 pin of relay K 2 are connected with 4 pin of relay interface J4; 1 pin of triode Q3 with after the anode parallel connection of electrochemical capacitor C10, with an end of resistance R 9, be connected; 2 pin of triode Q3 and ground connection after the negative electrode of electrochemical capacitor C10 is in parallel; 3 pin of triode Q3 with after the anode parallel connection of diode D9, with 5 pin of relay K 3, be connected; After one end parallel connection of the other end of resistance R 9 and resistance R 12, with 84 pins of main control chip in the main control module circuit, be connected; The other end ground connection of resistance R 12; The negative electrode of diode D9 is connected with 4 pin of relay K 3 with after 12V input end parallel connection in power module circuitry; 1 pin of relay K 3 is connected with 5 pin of relay interface J4 with after 12V input end parallel connection in power module circuitry; 3 pin of relay K 3 are connected with 6 pin of relay interface J4; 1 pin of triode Q4 with after the anode parallel connection of electrochemical capacitor C21, with an end of resistance R 25, be connected; 2 pin of triode Q4 and ground connection after the negative electrode of electrochemical capacitor C21 is in parallel; 3 pin of triode Q4 with after the anode parallel connection of diode D10, with 5 pin of relay K 4, be connected; After one end parallel connection of the other end of resistance R 25 and resistance R 26, with 85 pins of main control chip in the main control module circuit, be connected; The other end ground connection of resistance R 26; The negative electrode of diode D10 is connected with 4 pin of relay K 4 with after 12V input end parallel connection in power module circuitry; 1 pin of relay K 4 is connected with 1 pin of relay interface J5 with after 12V input end parallel connection in power module circuitry.3 pin of relay K 4 are connected with 2 pin of relay interface J5; 1 pin of triode Q5 with after the anode parallel connection of electrochemical capacitor C27, with an end of resistance R 27, be connected; 2 pin of triode Q5 and ground connection after the negative electrode of electrochemical capacitor C27 is in parallel; 3 pin of triode Q5 with after the anode parallel connection of diode D11, with 5 pin of relay K 5, be connected; After one end parallel connection of the other end of resistance R 27 and resistance R 28, with 86 pins of main control chip in the main control module circuit, be connected; The other end ground connection of resistance R 28; The negative electrode of diode D11 is connected with 4 pin of relay K 5 with after 12V input end parallel connection in power module circuitry; 1 pin of relay K 5 is connected with 3 pin of relay interface J5 with after 12V input end parallel connection in power module circuitry; 3 pin of relay K 5 are connected with 4 pin of relay interface J5; 1 pin of triode Q6 with after the anode parallel connection of electrochemical capacitor C31, with an end of resistance R 35, be connected; 2 pin of triode Q6 and ground connection after the negative electrode of electrochemical capacitor C31 is in parallel; 3 pin of triode Q6 with after the anode parallel connection of diode D12, with 5 pin of relay K 6, be connected; After one end parallel connection of the other end of resistance R 35 and resistance R 41, with 87 pins of main control chip in the main control module circuit, be connected; The other end ground connection of resistance R 41; The negative electrode of diode D12 is connected with 4 pin of relay K 6 with after 12V input end parallel connection in power module circuitry; 1 pin of relay K 6 is connected with 5 pin of relay interface J5 with after 12V input end parallel connection in power module circuitry; 3 pin of relay K 6 are connected with 6 pin of relay interface J5.

The real-time communication module circuit is comprised of a level transferring chip MAX, four ceramic disc capacitor C17, C18, C19 and C20.1 pin of level transferring chip MAX is connected with the end of ceramic disc capacitor C17; 3 pin of the other end of ceramic disc capacitor C17 and level transferring chip MAX are connected; 2 pin of level transferring chip MAX are connected with an end of ceramic disc capacitor 18; 16 pin of the other end of ceramic disc capacitor C18 and level transferring chip MAX and the 3.3V voltage output end parallel connection in power module circuitry; 4 pin of level transferring chip MAX are connected with the end of ceramic disc capacitor C20; 5 pin of the other end of ceramic disc capacitor C20 and level transferring chip MAX are connected; 6 pin of level transferring chip MAX are connected with the end of ceramic disc capacitor C19; Ground connection after the 15 pin parallel connections of the other end of ceramic disc capacitor C19 and level transferring chip MAX; 11 pin of level transferring chip MAX are connected with 68 pin of main control chip IC2 in the main control module circuit; 12 pin of level transferring chip MAX are connected with 69 pin of main control chip IC2 in the main control module circuit; 13 pin of level transferring chip MAX are the serial data receiving end; 14 pin of level transferring chip MAX are the serial data transmitting terminal, and the model of described level transferring chip MAX is MAX3232.

The indicating lamp module circuit is comprised of seven pilot lamp interface P1, P2, P3, P4, P5, P6 and P7, seven triode Q8, Q9, Q10, Q11, Q12, Q13 and Q14,14 resistance R 37, R49, R50, R51, R56, R57, R59, R60, R61, R62, R63, R64, R67 and R68, seven electrochemical capacitor C32, C33, C34, C35, C36, C37 and C39.1 pin of triode Q8 with after the anode parallel connection of electrochemical capacitor C32, with an end of resistance R 49, be connected; The other end of resistance R 49 is connected with 3 pin of main control chip in the main control module circuit; 3 pin of triode Q8 are connected with 2 pin of pilot lamp interface P1; 1 pin of pilot lamp interface P1 is connected with an end of resistance R 37; The other end of resistance R 37 is connected with the 3.3V voltage output end in power module circuitry; The 2 pin ground connection of the negative electrode of electrochemical capacitor C32, triode Q8; 1 pin of triode Q9 with after the anode parallel connection of electrochemical capacitor C33, with an end of resistance R 51, be connected; The other end of resistance R 51 is connected with 4 pin of main control chip in the main control module circuit; 3 pin of triode Q9 are connected with 2 pin of pilot lamp interface P2; 1 pin of pilot lamp interface P2 is connected with an end of resistance R 50; The other end of resistance R 50 is connected with the 3.3V voltage output end in power module circuitry; The 2 pin ground connection of the negative electrode of electrochemical capacitor C33, triode Q9; 1 pin of triode Q10 with after the anode parallel connection of electrochemical capacitor C34, with an end of resistance R 57, be connected; The other end of resistance R 57 is connected with 5 pin of main control chip in the main control module circuit; 3 pin of triode Q10 are connected with 2 pin of pilot lamp interface P3; 1 pin of pilot lamp interface P3 is connected with an end of resistance R 56; The other end of resistance R 56 is connected with the 3.3V voltage output end in power module circuitry; The 2 pin ground connection of the negative electrode of electrochemical capacitor C34, triode Q10; 1 pin of triode Q11 with after the anode parallel connection of electrochemical capacitor C35, with an end of resistance R 60, be connected; The other end of resistance R 60 is connected with 39 pin of main control chip in the main control module circuit; 3 pin of triode Q11 are connected with 2 pin of pilot lamp interface P4; 1 pin of pilot lamp interface P4 is connected with an end of resistance R 59; The other end of resistance R 59 is connected with the 3.3V voltage output end in power module circuitry; The 2 pin ground connection of the negative electrode of electrochemical capacitor C35, triode Q11; 1 pin of triode Q12 with after the anode parallel connection of electrochemical capacitor C36, with an end of resistance R 62, be connected; The other end of resistance R 62 is connected with 40 pin of main control chip in the main control module circuit; 3 pin of triode Q12 are connected with 2 pin of pilot lamp interface P5; 1 pin of pilot lamp interface P5 is connected with an end of resistance R 61; The other end of resistance R 61 is connected with the 3.3V voltage output end in power module circuitry; The 2 pin ground connection of the negative electrode of electrochemical capacitor C36, triode Q12; 1 pin of triode Q13 with after the anode parallel connection of electrochemical capacitor C37, with an end of resistance R 64, be connected; The other end of resistance R 64 is connected with 41 pin of main control chip in the main control module circuit; 3 pin of triode Q13 are connected with 2 pin of pilot lamp interface P6; 1 pin of pilot lamp interface P6 is connected with an end of resistance R 63; The other end of resistance R 63 is connected with the 3.3V voltage output end in power module circuitry; The 2 pin ground connection of the negative electrode of electrochemical capacitor C37, triode Q13; 1 pin of triode Q14 with after the anode parallel connection of electrochemical capacitor C39, with an end of resistance R 68, be connected; The other end of resistance R 68 is connected with 44 pin of main control chip in the main control module circuit; 3 pin of triode Q14 are connected with 2 pin of pilot lamp interface P7; 1 pin of pilot lamp interface P7 is connected with an end of resistance R 67; The other end of resistance R 67 is connected with the 3.3V voltage output end in power module circuitry; The 2 pin ground connection of the negative electrode of electrochemical capacitor C39, triode Q14.

The display module circuit is comprised of a digital interface tube J6.The 1 pin ground connection of charactron interface J6; 2 pin of charactron interface J6 are connected with 43 pin of main control chip in the main control module circuit; 3 pin of charactron interface J6 are connected with 42 pin of main control chip in the main control module circuit; 4 pin of charactron interface J6 are connected with the 5V input end in power module circuitry.

The utility model main application is when meeting the measurement of common power case, show and exporting requirement, before to power receiving equipment, providing high-tension electricity, utilize low voltage power supply, ruuning situation to power receiving equipment is carried out pre-detection, can also monitor and control the work of power supply box by PC, control in real time the heat radiation of power supply box by temperature real-time measurement simultaneously.This intelligent power control system can reach the purpose to the power receiving equipment pre-detection easily, and while facts have proved that it is in power control procedure, work that can be steady in a long-term.

The accompanying drawing explanation

Fig. 1 is a kind of theory diagram with intelligent power control system of pre-detection function;

Fig. 2 is the basic circuit schematic diagram of power module in this Multifunctional feeder box system;

Fig. 3 is the basic circuit schematic diagram of main control module in this Multifunctional feeder box system;

Fig. 4 is the basic circuit schematic diagram of real-time communication module in this Multifunctional feeder box system;

Fig. 5 is the basic circuit schematic diagram of pre-detection module in this Multifunctional feeder box system;

Fig. 6 is the basic circuit schematic diagram of voltage measurement module in this Multifunctional feeder box system;

Fig. 7 is the basic circuit schematic diagram of display module in this Multifunctional feeder box system;

Fig. 8 is the basic circuit schematic diagram of indicating lamp module in this Multifunctional feeder box system;

Fig. 9 is the basic circuit schematic diagram of the temperature controlled radiating module in this Multifunctional feeder box system.

Embodiment

Below engage accompanying drawing to the in addition detailed explanation of a kind of multi-functional online data monitoring system.

In accompanying drawing 1, each functional block title explanation: 1. power module, 2. main control module, 3. real-time communication module, 4. pre-detection module, 5. voltage measurement module, 6. display module, 7. indicating lamp module, 8. temperature controlled radiating module.

Below, with regard in accompanying drawing 1, the effect of each functional block is briefly described:

1. power module; The operating voltage of whole system is provided;

2. main control module; To the signal measured analyzed, the operation such as conversion, and control the corresponding operating of other modules;

3. real-time communication module; The signal that whole system is uploaded carries out real-time Transmission, and receives the instruction of PC;

4. pre-detection module; Working condition to power receiving equipment is carried out pre-detection;

5. voltage measurement module; Supply voltage is measured;

6. display module; Supply voltage is shown;

7. indicating lamp module; Working condition to whole system is shown;

8. temperature controlled radiating module; Heat radiation to system is controlled;

As shown in Figure 1, power module circuitry 1 is provided by provide+3.3V of main control module circuit 2 power supply, provide+3.3V of real-time communication module circuit 3 power supply is provided, give provide+5V of pre-detection modular circuit 4 and+the 12V power supply, provide+12V of voltage measurement module circuit 5 power supply is provided, provide+5V of display module circuit 6 power supply is provided, provide+3.3V of indicating lamp module circuit 7 power supply is provided, the 12V power supply is provided to temperature controlled radiating module 8, real-time communication module circuit 3 receives communication data or sends to main control module circuit 2 and the external world to communicate, pre-detection modular circuit 4 provides the pre-detection signal to main control module circuit 2, voltage detection module circuit 5 provides voltage signal to the main control module circuit, main control module circuit 2 provides control signal to display module circuit 6, main control module circuit 2 provides control signal to indicating lamp module circuit 7, temperature controlled radiating modular circuit 8 provides temperature signal to main control module circuit 2, main control module circuit 2 provides feedback control signal to the temperature controlled radiating module.

As shown in Figure 2, power module circuitry comprises a power interface J1, power conversion chip IC1, diode D1, light emitting diode D2, resistance R 1, two electrochemical capacitor C1 and C2, five ceramic disc capacitor C3, C4, C5, C6 and C7, two inductance L 1 and L2.

1 pin of power interface J1 connects the input of 12V power supply, and 2 pin connect the input of 5V power supply and are connected with diode D1, and 3 pin connect the input of pre-detection power supply, 4 pin ground connection; Diode D1 cross-over connection inductance L 1 is connected with 3 pin of power supply chip IC1, simultaneously flying capcitor C3 ground connection; The 1 pin ground connection of power conversion chip IC1,3 pin flying capcitor C1 and capacitor C 4 are to ground; 2 pin of power conversion chip IC1 are as whole power module circuitry+3.3V output terminal, and flying capcitor C2 and capacitor C 5, to ground, are connected with resistance R 1; 2 pin of power conversion chip IC1 simultaneously cross-over connection inductance L 2 are connected with C7 with capacitor C 6, also draw whole power module circuitry+3.3VREF voltage output end, and flying capcitor C6 and capacitor C 7 arrive ground; Resistance R 1 cross-over connection diode D2 is to ground, and described power conversion chip IC1 model is AMS1117-3.3V.

As shown in Figure 3, the main control module circuit is comprised of main control chip IC2, crystal oscillator XTAL, resistance R 23, eight ceramic disc capacitor C22, C23, C24, C25, C26, C28, C29 and C30.

6 pin of main control chip IC2 are connected with the 3.3V voltage output end in power module circuitry; 10 pin of main control chip IC2,27 pin, 49 pin, 74 pin, 94 pin and 99 pin ground connection; 12 pin of main control chip IC2 and flying capcitor C29 are to ground, and 13 pin flying capcitor C30 are to ground, cross-over connection crystal oscillator XTAL between them; After 11 pin of main control chip IC2,28 pin, 50 pin, 75 pin and 100 pin parallel connections, flying capcitor C22, C23, C24, C25, C26 are connected with the 3.3V voltage output end in power module circuitry to ground; The 37 pin cross-over connection resistance R 23 of main control chip IC2 are to ground; 19 pin of main control chip IC2,20 pin ground connection; 21 pin of main control chip IC2 are connected with the 3.3VREF voltage output end of power module circuitry; The ground connection of the 22 pin flying capcitor C28 of main control chip IC2, be connected with the 3.3V voltage output end in power module circuitry simultaneously, and main control chip IC2 model is STM32F103VCT6.

As shown in Figure 4, the real-time communication module circuit is comprised of a level transferring chip MAX, four ceramic disc capacitor C17, C18, C19 and C20.

The 1 pin flying capcitor C17 of level transferring chip MAX and 3 pin of level transferring chip MAX are connected; The 2 pin flying capcitor C18 of level transferring chip MAX and 16 pin of level transferring chip MAX are connected; 16 pin of level transferring chip MAX are connected with the 3.3V voltage output end in power module circuitry; The 4 pin flying capcitor C20 of level transferring chip MAX and 5 pin of level transferring chip MAX are connected; Ground connection after the 6 pin flying capcitor C19 of level transferring chip MAX and 15 pin of level transferring chip MAX are connected; 11 pin of level transferring chip MAX, 12 pin are connected with 68 pin, 69 pin of main control chip IC2 in the main control module circuit respectively; 13 pin of level transferring chip MAX are the serial data receiving end; 14 pin of level transferring chip MAX are the serial data transmitting terminal, and the model of described level transferring chip MAX is MAX3232.

As shown in Figure 5, the pre-detection modular circuit is comprised of an operational amplifier IC3, equipment interface M1, relay K 7, a triode Q7, four diode D3, D4, D5 and D6, seven resistance R 13, R14, R15, R22, R58, R65 and R66, electrochemical capacitor C38.

The 1 pin cross-over connection resistance R 65 of triode Q7 is connected with 88 pin of main control chip IC2 in the main control module circuit, and resistance R 65 cross-over connection resistance R 66 are to ground; 1 pin of triode Q7 flying capcitor C38 simultaneously arrives ground; The 2 pin ground connection of triode Q7; 3 pin of triode Q7 are connected with 5 pin of relay K 7; 1 pin cross-over connection diode D3 of relay K 7 is connected with diode D4, and diode D4 cross-over connection diode D5 is connected with pre-detection voltage input end in power module circuitry; After 3 pin jumper device interface M1 of relay K 7, cross-over connection resistance R 22 is connected with 3 pin of operational amplifier IC3, and the resistance R of cross-over connection simultaneously 58 is to ground; 4 pin of relay K 7 are connected with 12V input end in power module circuitry, and cross-over connection diode D6 is connected with 5 pin of relay K 7; The 2 pin cross-over connection resistance R 13 of operational amplifier IC3 are connected with 1 pin, and the resistance R of cross-over connection simultaneously 14 is to ground; 1 pin cross-over connection resistance R 15 of operational amplifier is connected with 15 pin of main control chip IC2 in the main control module circuit; The 4 pin ground connection of operational amplifier IC3; 8 pin of operational amplifier are connected with the 5V input end in power module, and described operational amplifier IC3 model is LM358.

As shown in Figure 6, voltage measurement module is comprised of an interface J2, six voltage measurement sensor ICs 4, IC5, IC6, IC7, IC8 and IC9,20 resistance R 29, R30, R31, R32, R33, R34, R36, R38, R39, R40, R42, R44, R45, R46, R47, R48, R52, R53, R54 and R55.

2 pin cross-over connection resistance R 34 of voltage measurement sensor IC 4 are connected with 1 pin of interface J2; 3 pin cross-over connection resistance R 54 of voltage measurement sensor IC 4 are connected with 34 pin of main control chip IC2 in the main control module circuit, and resistance R 54 cross-over connection resistance R 55 are to ground; 5 pin of voltage measurement sensor IC 4 are connected with the 12V input end in power module circuitry; 1 pin of voltage measurement sensor IC 4 and 4 pin ground connection; 2 pin cross-over connection resistance R 33 of voltage measurement sensor IC 5 are connected with 2 pin of interface J2; 3 pin cross-over connection resistance R 52 of voltage measurement sensor IC 5 are connected with 33 pin of main control chip IC2 in the main control module circuit, and resistance R 52 cross-over connection resistance R 53 are to ground; 5 pin of voltage measurement sensor IC 5 are connected with the 12V input end in power module circuitry; 1 pin of voltage measurement sensor IC 5 and 4 pin ground connection; 2 pin cross-over connection resistance R 32 of voltage measurement sensor IC 6 are connected with 3 pin of interface J2; 3 pin cross-over connection resistance R 47 of voltage measurement sensor IC 6 are connected with 32 pin of main control chip IC2 in the main control module circuit, and resistance R 47 cross-over connection resistance R 48 are to ground; 5 pin of voltage measurement sensor IC 6 are connected with the 12V input end in power module circuitry; 1 pin of voltage measurement sensor IC 6 and 4 pin ground connection; 2 pin cross-over connection resistance R 31 of voltage measurement sensor IC 7 are connected with 4 pin of interface J2; 3 pin cross-over connection resistance R 45 of voltage measurement sensor IC 7 are connected with 31 pin of main control chip IC2 in the main control module circuit, and resistance R 45 cross-over connection resistance R 46 are to ground; 5 pin of voltage measurement sensor IC 7 are connected with the 12V input end in power module circuitry; 1 pin of voltage measurement sensor IC 7 and 4 pin ground connection; 2 pin cross-over connection resistance R 30 of voltage measurement sensor IC 8 are connected with 5 pin of interface J2; 3 pin cross-over connection resistance R 42 of voltage measurement sensor IC 8 are connected with 30 pin of main control chip IC2 in the main control module circuit, and resistance R 42 cross-over connection resistance R 44 are to ground; 5 pin of voltage measurement sensor IC 8 are connected with the 12V input end in power module circuitry; 1 pin of voltage measurement sensor IC 8 and 4 pin ground connection; 2 pin cross-over connection resistance R 29 of voltage measurement sensor IC 9 are connected with 6 pin of interface J2; 3 pin cross-over connection resistance R 39 of voltage measurement sensor IC 9 are connected with 35 pin of main control chip IC2 in the main control module circuit, and resistance R 39 cross-over connection resistance R 40 are to ground; 5 pin of voltage measurement sensor IC 9 are connected with the 12V input end in power module circuitry; 1 pin of voltage measurement sensor IC 9 and 4 pin ground connection; After the 7 pin cross-over connection resistance R 36 of interface J2, with 29 pin of main control chip IC2 in the main control module circuit, be connected; Resistance R 36 cross-over connection resistance R 38 are to ground, and described voltage measurement sensor IC 4, IC5, IC6, IC7, IC8 and IC9 model are WBV342D01.

As shown in Figure 7, the display module circuit is comprised of a digital interface tube J6.

The 1 pin ground connection of charactron interface J6; 2 pin of charactron interface J6 are connected with 43 pin of main control chip in the main control module circuit; 3 pin of charactron interface J6 are connected with 42 pin of main control chip in the main control module circuit; 4 pin of charactron interface J6 are connected with the 5V input end in power module circuitry.

As shown in Figure 8, the indicating lamp module circuit is comprised of seven pilot lamp interface P1, P2, P3, P4, P5, P6 and P7, seven triode Q8, Q9, Q10, Q11, Q12, Q13 and Q14,14 resistance R 37, R49, R50, R51, R56, R57, R59, R60, R61, R62, R63, R64, R67 and R68, seven electrochemical capacitor C32, C33, C34, C35, C36, C37 and C39.

The 1 pin cross-over connection resistance R 49 of triode Q8 is connected with 3 pin of main control chip in the main control module circuit, and flying capcitor C32 is to ground simultaneously; The 2 pin ground connection of triode Q8; After the 3 pin cross-over connection pilot lamp interface P1 of triode Q8, cross-over connection resistance R again 37 is connected with the 3.3V output terminal in power module circuitry; The 1 pin cross-over connection resistance R 51 of triode Q9 is connected with 4 pin of main control chip in the main control module circuit, and flying capcitor C33 is to ground simultaneously; The 2 pin ground connection of triode Q9; After the 3 pin cross-over connection pilot lamp interface P2 of triode Q9, cross-over connection resistance R again 50 is connected with the 3.3V output terminal in power module circuitry; The 1 pin cross-over connection resistance R 57 of triode Q10 is connected with 5 pin of main control chip in the main control module circuit, and flying capcitor C34 is to ground simultaneously; The 2 pin ground connection of triode Q10; After the 3 pin cross-over connection pilot lamp interface P3 of triode Q10, cross-over connection resistance R again 56 is connected with the 3.3V output terminal in power module circuitry; The 1 pin cross-over connection resistance R 60 of triode Q11 is connected with 39 pin of main control chip in the main control module circuit, and flying capcitor C35 is to ground simultaneously; The 2 pin ground connection of triode Q11; After the 3 pin cross-over connection pilot lamp interface P4 of triode Q11, cross-over connection resistance R again 59 is connected with the 3.3V output terminal in power module circuitry; The 1 pin cross-over connection resistance R 62 of triode Q12 is connected with 40 pin of main control chip in the main control module circuit, and flying capcitor C36 is to ground simultaneously; The 2 pin ground connection of triode Q12; After the 3 pin cross-over connection pilot lamp interface P5 of triode Q12, cross-over connection resistance R again 61 is connected with the 3.3V output terminal in power module circuitry; The 1 pin cross-over connection resistance R 64 of triode Q13 is connected with 41 pin of main control chip in the main control module circuit, and flying capcitor C37 is to ground simultaneously; The 2 pin ground connection of triode Q13; After the 3 pin cross-over connection pilot lamp interface P6 of triode Q13, cross-over connection resistance R again 63 is connected with the 3.3V output terminal in power module circuitry; The 1 pin cross-over connection resistance R 68 of triode Q14 is connected with 44 pin of main control chip in the main control module circuit, and flying capcitor C39 is to ground simultaneously; The 2 pin ground connection of triode Q14; After the 3 pin cross-over connection pilot lamp interface P7 of triode Q14, cross-over connection resistance R again 67 is connected with the 3.3V output terminal in power module circuitry.

As shown in Figure 9, the temperature controlled radiating modular circuit is comprised of a temperature sensor interface J3, two fan interface J4 and J5, six relay K 1, K2, K3, K4, K5 and K6, six triode Q1, Q2, Q3, Q4, Q5 and Q6, six diode D7, D8, D9, D10, D11 and D12,18 resistance R 1, R2, R3, R4, R6, R7, R8, R9, R10, R11, R12, R21, R25, R26, R27, R28, R35 and R41, six electrochemical capacitor C8, C9, C10, C21, C27 and C31.

1 pin of temperature sensor interface J3,2 pin, 3 pin, 4 pin, 5 pin, 6 pin are connected with 26 pin, 25 pin, 24 pin, 18 pin, 17 pin, 16 pin of main control chip IC2 in the main control module circuit respectively, and cross-over connection resistance R 1, R2, R3, R4, R7, R21 are connected with 3.3V output terminal in power module circuitry respectively; 7 pin of temperature sensor interface J3 and 8 pin ground connection; The 1 pin cross-over connection resistance R 6 of triode Q1 is connected with 82 pin of main control chip IC2 in the main control module circuit, and resistance R 6 cross-over connection resistance R 10 are to ground; 1 pin of triode Q1 flying capcitor C8 simultaneously arrives ground; The 2 pin ground connection of triode Q1; 3 pin of triode Q1 are connected with 5 pin of relay K 1; 4 pin of relay K 1 are connected with 12V input end in power module circuitry, and cross-over connection diode D7 is connected with 5 pin of relay K 1; 1 pin of relay K 1 is connected with the 12V input end in power module circuitry, with 1 pin of fan interface J4, is connected simultaneously; 3 pin of relay K 1 are connected with 2 pin of fan interface J4; The 1 pin cross-over connection resistance R 8 of triode Q2 is connected with 83 pin of main control chip IC2 in the main control module circuit, and resistance R 8 cross-over connection resistance R 11 are to ground; 1 pin of triode Q2 flying capcitor C9 simultaneously arrives ground; The 2 pin ground connection of triode Q2; 3 pin of triode Q2 are connected with 5 pin of relay K 2; 4 pin of relay K 2 are connected with 12V input end in power module circuitry, and cross-over connection diode D8 is connected with 5 pin of relay K 2; 1 pin of relay K 2 is connected with the 12V input end in power module circuitry, with 3 pin of fan interface J4, is connected simultaneously; 3 pin of relay K 2 are connected with 4 pin of fan interface J4; The 1 pin cross-over connection resistance R 9 of triode Q3 is connected with 84 pin of main control chip IC2 in the main control module circuit, and resistance R 9 cross-over connection resistance R 12 are to ground; 1 pin of triode Q3 flying capcitor C10 simultaneously arrives ground; The 2 pin ground connection of triode Q3; 3 pin of triode Q3 are connected with 5 pin of relay K 3; 4 pin of relay K 3 are connected with 12V input end in power module circuitry, and cross-over connection diode D9 is connected with 5 pin of relay K 3; 1 pin of relay K 3 is connected with the 12V input end in power module circuitry, with 5 pin of fan interface J4, is connected simultaneously; 3 pin of relay K 3 are connected with 6 pin of fan interface J4; The 1 pin cross-over connection resistance R 25 of triode Q4 is connected with 85 pin of main control chip IC2 in the main control module circuit, and resistance R 25 cross-over connection resistance R 26 are to ground; 1 pin of triode Q4 flying capcitor C21 simultaneously arrives ground; The 2 pin ground connection of triode Q4; 3 pin of triode Q4 are connected with 5 pin of relay K 4; 4 pin of relay K 4 are connected with 12V input end in power module circuitry, and cross-over connection diode D10 is connected with 5 pin of relay K 4; 1 pin of relay K 4 is connected with the 12V input end in power module circuitry, with 1 pin of fan interface J5, is connected simultaneously; 3 pin of relay K 4 are connected with 2 pin of fan interface J5; The 1 pin cross-over connection resistance R 27 of triode Q5 is connected with 86 pin of main control chip IC2 in the main control module circuit, and resistance R 27 cross-over connection resistance R 28 are to ground; 1 pin of triode Q5 flying capcitor C27 simultaneously arrives ground; The 2 pin ground connection of triode Q5; 3 pin of triode Q5 are connected with 5 pin of relay K 5; 4 pin of relay K 5 are connected with 12V input end in power module circuitry, and cross-over connection diode D11 is connected with 5 pin of relay K 5; 1 pin of relay K 5 is connected with the 12V input end in power module circuitry, with 3 pin of fan interface J5, is connected simultaneously; 3 pin of relay K 5 are connected with 4 pin of fan interface J5; The 1 pin cross-over connection resistance R 27 of triode Q6 is connected with 87 pin of main control chip IC2 in the main control module circuit, and resistance R 27 cross-over connection resistance R 28 are to ground; 1 pin of triode Q6 flying capcitor C31 simultaneously arrives ground; The 2 pin ground connection of triode Q6; 3 pin of triode Q6 are connected with 5 pin of relay K 6; 4 pin of relay K 6 are connected with 12V input end in power module circuitry, and cross-over connection diode D12 is connected with 5 pin of relay K 6; 1 pin of relay K 6 is connected with the 12V input end in power module circuitry, with 5 pin of fan interface J5, is connected simultaneously; 3 pin of relay K 6 are connected with 6 pin of fan interface J5.

The related system of the utility model can be applicable to the system that any one need to be powered, and can before to power receiving equipment, providing voltage, to the working condition of equipment, carry out pre-detection, realizes the pre-detection function to the equipment working condition, safety, reliable.

Claims

1. the intelligent power control system with pre-detection function, comprise main control module, pre-detection module, voltage measurement module, temperature controlled radiating module, real-time communication module, display module, indicating lamp module and power module, it is characterized in that:

Power module circuitry comprises a power interface J1, power conversion chip IC1, diode D1, light emitting diode D2, resistance R 1, two electrochemical capacitor C1 and C2, five ceramic disc capacitor C3, C4, C5, C6 and C7, two inductance L 1 and L2; 1 pin of power interface J1 is as the 12V voltage input end; 3 pin of power interface J1 are as the pre-detection voltage input end; The 4 pin ground connection of power interface J1; The anode of diode D2 is connected with 2 pin of power interface J1 as the 5V voltage input end, after the end parallel connection of the negative electrode of diode D1 and ceramic disc capacitor C3, with an end of inductance L 1, is connected; After the end of the other end of inductance L 1 and ceramic disc capacitor C4 and the anode parallel connection of electrochemical capacitor C1, with 3 pin of power conversion chip IC1, be connected; The 1 pin ground connection of power conversion chip IC1; 2 pin of power conversion chip IC1 are as the 3.3V voltage output end, with after an end parallel connection of the anode of the end of ceramic disc capacitor C5, electrochemical capacitor C2 and resistance R 1, with an end of inductance L 2, are connected; The anodic bonding of the other end of resistance R 1 and light emitting diode D2; The other end of inductance L 2 is 3.3V REF voltage output end, in parallel with the end of the end of ceramic disc capacitor C6 and ceramic disc capacitor C7; The other end of the negative electrode of electrochemical capacitor C1, C2, ceramic disc capacitor C3, C4, C5, C6, C7, the negative electrode of light emitting diode D2 be ground connection all, and described power conversion chip IC1 model is AMS1117-3.3V;

The main control module circuit is comprised of main control chip IC2, crystal oscillator XTAL, resistance R 23, eight ceramic disc capacitor C22, C23, C24, C25, C26, C28, C29 and C30; 6 pin of main control chip IC2 are connected with the 3.3V voltage output end in power module circuitry; After the end parallel connection of 12 pin of main control chip IC2 and ceramic disc capacitor C29, with the end of crystal oscillator XTAL, be connected, after the end parallel connection of 13 pin of main control chip IC2 and ceramic disc capacitor C30, with the other end of crystal oscillator XTAL, be connected, the other end of ceramic disc capacitor C29 and C30 is ground connection all; After 11 pin of main control chip IC2,28 pin, 50 pin, 75 pin and 100 pin parallel connections, with the end of ceramic disc capacitor C22, C23, C24, C25, C26 is in parallel, also with the 3.3V voltage output end in power module circuitry, be connected; After 10 pin of main control chip IC3,27 pin, 49 pin, 74 pin and 99 pin parallel connections and the other end earth of ceramic disc capacitor C22, C23, C24, C25, C26; 19 pin of main control chip IC3,20 pin and 94 pin ground connection; 21 pin of main control chip IC2 are connected with the 3.3V REF voltage output end in power module circuitry; Be connected the other end ground connection of ceramic disc capacitor C28 after the end parallel connection of 22 pin of main control chip IC2 and ceramic disc capacitor C28 with the 3.3V voltage output end in power module circuitry; 37 pin of main control chip IC2 are connected with an end of resistance R 23, the other end ground connection of resistance R 23, and main control chip IC2 model is STM32F103VCT6;

The pre-detection modular circuit is comprised of an operational amplifier IC3, equipment interface M1, relay K 7, a triode Q7, four diode D3, D4, D5 and D6, seven resistance R 13, R14, R15, R22, R58, R65 and R66, electrochemical capacitor C38; 1 pin of triode Q7 with after the anode parallel connection of electrochemical capacitor C38, with an end of resistance R 65, be connected; 2 pin of triode Q7 and ground connection after the negative electrode of electrochemical capacitor C38 is in parallel; 3 pin of triode Q7 with after the anode parallel connection of diode D6, with 5 pin of relay K 7, be connected; After one end parallel connection of the other end of resistance R 65 and resistance R 66, with 88 pins of main control chip in the main control module circuit, be connected; The other end ground connection of resistance R 66; The negative electrode of diode D6 is connected with 4 pin of relay K 7 with after 12V input end parallel connection in power module circuitry; 1 pin of relay K 7 is connected with the negative electrode of diode D3, and the anode of diode D3 is connected with the negative electrode of diode D4, and the anode of diode D4 is connected with the negative electrode of diode D5, and the anode of diode D5 is connected with the pre-detection voltage input end in power module circuitry; 3 pin of relay K 7 are connected with 1 pin of equipment interface M1; Be connected the other end ground connection of resistance R 58 after one end parallel connection of 2 pin of equipment interface M1 and resistance R 58 with an end of resistance R 22; The other end of resistance R 22 is connected with 3 pin of operational amplifier; After one end parallel connection of 2 pin of operational amplifier and resistance R 14, with an end of resistance R 13, be connected; After one end parallel connection of 1 pin of operational amplifier IC3 and resistance R 15, with the other end of resistance R 13, be connected; 8 pin of operational amplifier are connected with the 5V input end in power module circuitry; 4 pin of operational amplifier, the other end ground connection of resistance R 14; The other end of resistance R 15 is connected with 15 pins of main control chip in the main control module circuit, and described operational amplifier IC3 model is LM358;

Voltage measurement module is comprised of an interface J2, six voltage measurement sensor ICs 4, IC5, IC6, IC7, IC8 and IC9,20 resistance R 29, R30, R31, R32, R33, R34, R36, R38, R39, R40, R42, R44, R45, R46, R47, R48, R52, R53, R54 and R55; 2 pin of voltage measurement sensor IC 4 are connected with an end of resistance R 34; 3 pin of voltage measurement sensor IC 4 are connected with an end of resistance R 54, after an end parallel connection of the other end of resistance R 54 and resistance R 55, with 34 pin of main control chip IC2 in the main control module circuit, are connected; 5 pin of voltage measurement sensor IC 4 are connected with the 12V input end in power module circuitry; The other end of 1 pin of voltage measurement sensor IC 4,4 pin and resistance R 55 is ground connection all; The other end of resistance R 34 is connected with 1 pin of interface J2; 2 pin of voltage measurement sensor IC 5 are connected with an end of resistance R 33; 3 pin of voltage measurement sensor IC 5 are connected with an end of resistance R 52, after an end parallel connection of the other end of resistance R 52 and resistance R 53, with 33 pin of main control chip IC2 in the main control module circuit, are connected; 5 pin of voltage measurement sensor IC 5 are connected with the 12V input end in power module circuitry; The other end of 1 pin of voltage measurement sensor IC 5,4 pin and resistance R 53 is ground connection all; The other end of resistance R 33 is connected with 2 pin of interface J2; 2 pin of voltage measurement sensor IC 6 are connected with an end of resistance R 32; 3 pin of voltage measurement sensor IC 6 are connected with an end of resistance R 47, after an end parallel connection of the other end of resistance R 47 and resistance R 48, with 32 pin of main control chip IC2 in the main control module circuit, are connected; 5 pin of voltage measurement sensor IC 6 are connected with the 12V input end in power module circuitry; The other end of 1 pin of voltage measurement sensor IC 6,4 pin and resistance R 48 is ground connection all; The other end of resistance R 32 is connected with 3 pin of interface J2; 2 pin of voltage measurement sensor IC 7 are connected with an end of resistance R 31; 3 pin of voltage measurement sensor IC 7 are connected with an end of resistance R 45, after an end parallel connection of the other end of resistance R 45 and resistance R 46, with 31 pin of main control chip IC2 in the main control module circuit, are connected; 5 pin of voltage measurement sensor IC 7 are connected with the 12V input end in power module circuitry; The other end of 1 pin of voltage measurement sensor IC 7,4 pin and resistance R 46 is ground connection all; The other end of resistance R 31 is connected with 4 pin of interface J2; 2 pin of voltage measurement sensor IC 8 are connected with an end of resistance R 30; 3 pin of voltage measurement sensor IC 8 are connected with an end of resistance R 42, after an end parallel connection of the other end of resistance R 42 and resistance R 44, with 30 pin of main control chip IC2 in the main control module circuit, are connected; 5 pin of voltage measurement sensor IC 8 are connected with the 12V input end in power module circuitry; The other end of 1 pin of voltage measurement sensor IC 8,4 pin and resistance R 44 is ground connection all; The other end of resistance R 30 is connected with 5 pin of interface J2; 2 pin of voltage measurement sensor IC 9 are connected with an end of resistance R 29; 3 pin of voltage measurement sensor IC 9 are connected with an end of resistance R 39, after an end parallel connection of the other end of resistance R 39 and resistance R 40, with 35 pin of main control chip IC2 in the main control module circuit, are connected; 5 pin of voltage measurement sensor IC 9 are connected with the 12V input end in power module circuitry; The other end of 1 pin of voltage measurement sensor IC 9,4 pin and resistance R 40 is ground connection all; The other end of resistance R 29 is connected with 6 pin of interface J2; 7 pin of interface J2 are connected with an end of resistance R 36; After one end parallel connection of the other end of resistance R 36 and resistance R 38, with 29 pin of main control chip IC2 in the main control module circuit, be connected; 8 pin of interface J2, the other end ground connection of resistance R 38, described voltage measurement sensor IC 4, IC5, IC6, IC7, IC8 and IC9 model are WBV342D01;

The temperature controlled radiating modular circuit is by a temperature sensor interface J3, two fan interface J4 and J5, six relay K 1, K2, K3, K4, K5 and K6, six triode Q1, Q2, Q3, Q4, Q5 and Q6, six diode D7, D8, D9, D10, D11 and D12, 18 resistance R 1, R2, R3, R4, R6, R7, R8, R9, R10, R11, R12, R21, R25, R26, R27, R28, R35 and R41, six electrochemical capacitor C8, C9, C10, C21, C27 and C31 form, 1 pin of temperature sensor interface J3 is connected with 26 pin of main control chip IC2 in the main control module circuit with after resistance R 1 parallel connection, 2 pin of temperature sensor interface J3 are connected with 25 pin of main control chip IC2 in the main control module circuit with after resistance R 2 parallel connections, 3 pin of temperature sensor interface J3 are connected with 24 pin of main control chip IC2 in the main control module circuit with after resistance R 3 parallel connections, 4 pin of temperature sensor interface J3 are connected with 18 pin of main control chip IC2 in the main control module circuit with after resistance R 4 parallel connections, 5 pin of temperature sensor interface J3 are connected with 17 pin of main control chip IC2 in the main control module circuit with after resistance R 7 parallel connections, 6 pin of temperature sensor interface J3 are connected with 16 pin of main control chip IC2 in the main control module circuit with after resistance R 21 parallel connections, after the other end parallel connection of resistance R 1, R2, R3, R4, R7 and R21, with the 3.3V output terminal in power module circuitry, be connected, 7 pin of temperature sensor interface J3 and 8 pin ground connection, 1 pin of triode Q1 with after the anode parallel connection of electrochemical capacitor C8, with an end of resistance R 6, be connected, 2 pin of triode Q1 and ground connection after the negative electrode of electrochemical capacitor C8 is in parallel, 3 pin of triode Q1 with after the anode parallel connection of diode D7, with 5 pin of relay K 1, be connected, after one end parallel connection of the other end of resistance R 6 and resistance R 10, with 82 pins of main control chip in the main control module circuit, be connected, the other end ground connection of resistance R 10, the negative electrode of diode D7 is connected with 4 pin of relay K 1 with after 12V input end parallel connection in power module circuitry, 1 pin of relay K 1 is connected with 1 pin of relay interface J4 with after 12V input end parallel connection in power module circuitry, 3 pin of relay K 1 are connected with 2 pin of relay interface J4, 1 pin of triode Q2 with after the anode parallel connection of electrochemical capacitor C9, with an end of resistance R 8, be connected, 2 pin of triode Q2 and ground connection after the negative electrode of electrochemical capacitor C9 is in parallel, 3 pin of triode Q2 with after the anode parallel connection of diode D8, with 5 pin of relay K 2, be connected, after one end parallel connection of the other end of resistance R 8 and resistance R 11, with 83 pins of main control chip in the main control module circuit, be connected, the other end ground connection of resistance R 11, the negative electrode of diode D8 is connected with 4 pin of relay K 2 with after 12V input end parallel connection in power module circuitry, 1 pin of relay K 2 is connected with 3 pin of relay interface J4 with after 12V input end parallel connection in power module circuitry, 3 pin of relay K 2 are connected with 4 pin of relay interface J4, 1 pin of triode Q3 with after the anode parallel connection of electrochemical capacitor C10, with an end of resistance R 9, be connected, 2 pin of triode Q3 and ground connection after the negative electrode of electrochemical capacitor C10 is in parallel, 3 pin of triode Q3 with after the anode parallel connection of diode D9, with 5 pin of relay K 3, be connected, after one end parallel connection of the other end of resistance R 9 and resistance R 12, with 84 pins of main control chip in the main control module circuit, be connected, the other end ground connection of resistance R 12, the negative electrode of diode D9 is connected with 4 pin of relay K 3 with after 12V input end parallel connection in power module circuitry, 1 pin of relay K 3 is connected with 5 pin of relay interface J4 with after 12V input end parallel connection in power module circuitry, 3 pin of relay K 3 are connected with 6 pin of relay interface J4, 1 pin of triode Q4 with after the anode parallel connection of electrochemical capacitor C21, with an end of resistance R 25, be connected, 2 pin of triode Q4 and ground connection after the negative electrode of electrochemical capacitor C21 is in parallel, 3 pin of triode Q4 with after the anode parallel connection of diode D10, with 5 pin of relay K 4, be connected, after one end parallel connection of the other end of resistance R 25 and resistance R 26, with 85 pins of main control chip in the main control module circuit, be connected, the other end ground connection of resistance R 26, the negative electrode of diode D10 is connected with 4 pin of relay K 4 with after 12V input end parallel connection in power module circuitry, 1 pin of relay K 4 is connected with 1 pin of relay interface J5 with after 12V input end parallel connection in power module circuitry, 3 pin of relay K 4 are connected with 2 pin of relay interface J5, 1 pin of triode Q5 with after the anode parallel connection of electrochemical capacitor C27, with an end of resistance R 27, be connected, 2 pin of triode Q5 and ground connection after the negative electrode of electrochemical capacitor C27 is in parallel, 3 pin of triode Q5 with after the anode parallel connection of diode D11, with 5 pin of relay K 5, be connected, after one end parallel connection of the other end of resistance R 27 and resistance R 28, with 86 pins of main control chip in the main control module circuit, be connected, the other end ground connection of resistance R 28, the negative electrode of diode D11 is connected with 4 pin of relay K 5 with after 12V input end parallel connection in power module circuitry, 1 pin of relay K 5 is connected with 3 pin of relay interface J5 with after 12V input end parallel connection in power module circuitry, 3 pin of relay K 5 are connected with 4 pin of relay interface J5, 1 pin of triode Q6 with after the anode parallel connection of electrochemical capacitor C31, with an end of resistance R 35, be connected, 2 pin of triode Q6 and ground connection after the negative electrode of electrochemical capacitor C31 is in parallel, 3 pin of triode Q6 with after the anode parallel connection of diode D12, with 5 pin of relay K 6, be connected, after one end parallel connection of the other end of resistance R 35 and resistance R 41, with 87 pins of main control chip in the main control module circuit, be connected, the other end ground connection of resistance R 41, the negative electrode of diode D12 is connected with 4 pin of relay K 6 with after 12V input end parallel connection in power module circuitry, 1 pin of relay K 6 is connected with 5 pin of relay interface J5 with after 12V input end parallel connection in power module circuitry, 3 pin of relay K 6 are connected with 6 pin of relay interface J5,

The real-time communication module circuit is comprised of a level transferring chip MAX, four ceramic disc capacitor C17, C18, C19 and C20; 1 pin of level transferring chip MAX is connected with the end of ceramic disc capacitor C17; 3 pin of the other end of ceramic disc capacitor C17 and level transferring chip MAX are connected; 2 pin of level transferring chip MAX are connected with an end of ceramic disc capacitor 18; 16 pin of the other end of ceramic disc capacitor C18 and level transferring chip MAX and the 3.3V voltage output end parallel connection in power module circuitry; 4 pin of level transferring chip MAX are connected with the end of ceramic disc capacitor C20; 5 pin of the other end of ceramic disc capacitor C20 and level transferring chip MAX are connected; 6 pin of level transferring chip MAX are connected with the end of ceramic disc capacitor C19; Ground connection after the 15 pin parallel connections of the other end of ceramic disc capacitor C19 and level transferring chip MAX; 11 pin of level transferring chip MAX are connected with 68 pin of main control chip IC2 in the main control module circuit; 12 pin of level transferring chip MAX are connected with 69 pin of main control chip IC2 in the main control module circuit; 13 pin of level transferring chip MAX are the serial data receiving end; 14 pin of level transferring chip MAX are the serial data transmitting terminal, and the model of described level transferring chip MAX is MAX3232;

The indicating lamp module circuit is comprised of seven pilot lamp interface P1, P2, P3, P4, P5, P6 and P7, seven triode Q8, Q9, Q10, Q11, Q12, Q13 and Q14,14 resistance R 37, R49, R50, R51, R56, R57, R59, R60, R61, R62, R63, R64, R67 and R68, seven electrochemical capacitor C32, C33, C34, C35, C36, C37 and C39; 1 pin of triode Q8 with after the anode parallel connection of electrochemical capacitor C32, with an end of resistance R 49, be connected; The other end of resistance R 49 is connected with 3 pin of main control chip in the main control module circuit; 3 pin of triode Q8 are connected with 2 pin of pilot lamp interface P1; 1 pin of pilot lamp interface P1 is connected with an end of resistance R 37; The other end of resistance R 37 is connected with the 3.3V voltage output end in power module circuitry; The 2 pin ground connection of the negative electrode of electrochemical capacitor C32, triode Q8; 1 pin of triode Q9 with after the anode parallel connection of electrochemical capacitor C33, with an end of resistance R 51, be connected; The other end of resistance R 51 is connected with 4 pin of main control chip in the main control module circuit; 3 pin of triode Q9 are connected with 2 pin of pilot lamp interface P2; 1 pin of pilot lamp interface P2 is connected with an end of resistance R 50; The other end of resistance R 50 is connected with the 3.3V voltage output end in power module circuitry; The 2 pin ground connection of the negative electrode of electrochemical capacitor C33, triode Q9; 1 pin of triode Q10 with after the anode parallel connection of electrochemical capacitor C34, with an end of resistance R 57, be connected; The other end of resistance R 57 is connected with 5 pin of main control chip in the main control module circuit; 3 pin of triode Q10 are connected with 2 pin of pilot lamp interface P3; 1 pin of pilot lamp interface P3 is connected with an end of resistance R 56; The other end of resistance R 56 is connected with the 3.3V voltage output end in power module circuitry; The 2 pin ground connection of the negative electrode of electrochemical capacitor C34, triode Q10; 1 pin of triode Q11 with after the anode parallel connection of electrochemical capacitor C35, with an end of resistance R 60, be connected; The other end of resistance R 60 is connected with 39 pin of main control chip in the main control module circuit; 3 pin of triode Q11 are connected with 2 pin of pilot lamp interface P4; 1 pin of pilot lamp interface P4 is connected with an end of resistance R 59; The other end of resistance R 59 is connected with the 3.3V voltage output end in power module circuitry; The 2 pin ground connection of the negative electrode of electrochemical capacitor C35, triode Q11; 1 pin of triode Q12 with after the anode parallel connection of electrochemical capacitor C36, with an end of resistance R 62, be connected; The other end of resistance R 62 is connected with 40 pin of main control chip in the main control module circuit; 3 pin of triode Q12 are connected with 2 pin of pilot lamp interface P5; 1 pin of pilot lamp interface P5 is connected with an end of resistance R 61; The other end of resistance R 61 is connected with the 3.3V voltage output end in power module circuitry; The 2 pin ground connection of the negative electrode of electrochemical capacitor C36, triode Q12; 1 pin of triode Q13 with after the anode parallel connection of electrochemical capacitor C37, with an end of resistance R 64, be connected; The other end of resistance R 64 is connected with 41 pin of main control chip in the main control module circuit; 3 pin of triode Q13 are connected with 2 pin of pilot lamp interface P6; 1 pin of pilot lamp interface P6 is connected with an end of resistance R 63; The other end of resistance R 63 is connected with the 3.3V voltage output end in power module circuitry; The 2 pin ground connection of the negative electrode of electrochemical capacitor C37, triode Q13; 1 pin of triode Q14 with after the anode parallel connection of electrochemical capacitor C39, with an end of resistance R 68, be connected; The other end of resistance R 68 is connected with 44 pin of main control chip in the main control module circuit; 3 pin of triode Q14 are connected with 2 pin of pilot lamp interface P7; 1 pin of pilot lamp interface P7 is connected with an end of resistance R 67; The other end of resistance R 67 is connected with the 3.3V voltage output end in power module circuitry; The 2 pin ground connection of the negative electrode of electrochemical capacitor C39, triode Q14;

The display module circuit is comprised of a digital interface tube J6; The 1 pin ground connection of charactron interface J6; 2 pin of charactron interface J6 are connected with 43 pin of main control chip in the main control module circuit; 3 pin of charactron interface J6 are connected with 42 pin of main control chip in the main control module circuit; 4 pin of charactron interface J6 are connected with the 5V input end in power module circuitry.