CN201425719Y - Temperature and humidity control recorder - Google Patents
Temperature and humidity control recorder Download PDFInfo
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- CN201425719Y CN201425719Y CN2009201322505U CN200920132250U CN201425719Y CN 201425719 Y CN201425719 Y CN 201425719Y CN 2009201322505 U CN2009201322505 U CN 2009201322505U CN 200920132250 U CN200920132250 U CN 200920132250U CN 201425719 Y CN201425719 Y CN 201425719Y
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Abstract
The utility model provides a temperature and humidity control recorder, and relates to an indoor intelligent temperature and humidity control recording instrument comprising a power module, a button module, an infrared remote control transmitting and receiving module, a large-capacity Flash module, a USB module, an alarm module, a temperature and humidity detection module, an LCD (liquid crystal display) module, a real-time clock module and a relay module, which are connected with and controlled by a central processing unit; and the temperature and humidity control recorder controls an external alarm, a fan, an air conditioner, an air-conditioning remote controller, a power adapter, a PC (personal computer) and a printer. The temperature and humidity control recorder has the advantages ofwide applicable scope, low user investment and obvious energy-saving effect, can not only objectively and accurately record actual temperature and humidity of a warehouse for data management and analysis, but also adapt to air-conditioning equipment by different manufacturers through studying the instructions of the air-conditioning remote controller independently, and is widely suitable for places with the special requirement on the temperature and humidity, such as various warehouses, grain depots, food storehouses, medicine and health storehouses, raw material warehouses, manufacturing shops, machine rooms, offices and the like.
Description
Technical field:
The utility model relates to the controlling recording instrument, especially indoor intelligent Temperature and Humidity Control register instrument.
Background technology:
In the process of article keeping, maintenance in the warehouse, the temperature and humidity in warehouse is all had certain requirement, the variation meeting of temperature and humidity causes and must influence the quality of product.Particularly strict more to the requirement of temperature and humidity in medical supplies, food and chemical products.Common way is that several air-conditionings are purchased in the warehouse at present, carries out the detection of temperature and humidity then by artificial mode, and the start and stop of manual control air conditioner.Can cause ambient temperature and humidity can not satisfy memory requirement because the deviation of temperature and humidity measurement and record take place all artificial origins like this, and cause data analysis or occur mistake when recalling.Simultaneously, in order to satisfy the Temperature and Humidity Control requirement, need with air-conditioning long-term open or increase staff carry out the manual control air-conditioning continually, like this serious waste electric power and shortened equipment life, cause the operation and the handling cost increase in warehouse.
Summary of the invention:
The purpose of this utility model is to provide a kind of and can detects accurately, write down, manage and analyze ambient temperature and humidity, and can by the order number of self study air-conditioning remote control control equipment such as the air-conditioning of any producer and blower fan by ambient temperature and humidity within the article keeping claimed range.When special circumstances or ambient temperature and humidity surpass setting range, can send the Temperature and Humidity Control registering instrument of audible and visual alarm signal.
The utility model is made up of power module, key-press module, Infrared Remote-Control Sending and receiver module, high-capacity FLASH module, USB module, alarm module, humiture detection module, LCD module, real-time clock module, relay module that central processing unit connects control; Externally connect respectively and control external alarm device, blower fan, air-conditioning, air-conditioning remote control, power supply adaptor, PC and printer; Central processing unit adopts following electrically connecting: 1 pin of integrated circuit U5 connects JTAG TEST, 2 pin connect C4, R8, R9, C98, R30, R31, R32, the VCC power supply, 3 pin connect VCC SENSOR CTL, 5 pin, 6 pin connect crystal oscillator Y1,7 pin connect JTAG_RST, the R9 other end, 8 pin connect LOG_MODE, 9 pin connect HT_IN_DATA, 10 pin connect HT_IN_SCK, 11 pin connect FLAH_SC, and 12 pin connect FLAH_MOSI, and 13 pin connect FLASH_MISO, 14 pin connect FLASH_CLK, 16 pin connect R8, and 17 pin connect LCD_CS, and 18 pin connect LCD_SCK, 19 pin connect LCD_MOSI, 20 pin connect IRDA_IN, and 21 pin connect IRDA_OUT, and 22 pin connect IO_OUT, 23 pin connect IO_IN, 25 pin connect TXD, and 26 pin connect RXD, 27BAT_IN, 28 pin connect COM_IN, 30 pin connect IIC_SDA, and 31 pin connect IIC_SCL, and 32 pin connect STANDBY, 33 pin connect PWM_T, 34 pin connect PWM_H, and 35 pin connect JTAG_TCK, and 36 pin connect JTAG_TMS, 37 pin connect JTAG_TAI, and 38 pin connect JTAG_TDO; The LCD module adopts following electrically connecting: 1 pin of integrated circuit U15 connects LCDCS, and 4 pin connect LCD SCK, and 5 pin connect LCD MOSI, 8 pin connect R17, and 9 pin connect EC5, VCC, the R17 other end, and 17 pin connect COM0,18 pin connect COM1,20 pin connect COM2, and 21 pin connect COM3, and 22 pin connect COM4,31 pin connect SEG6,32 pin connect SEG7, and the 36-48 pin connects SEG8-SEG20, and the 53-64 pin connects SEG21-SEG32; The 1-5 pin of integrated circuit M1 connects COM0-COM4, and the 6-32 pin connects SEG6-SEG32, and R30 other end pin connects LCD_CS, and R31 other end pin connects LCD_SCK, and R32 other end pin connects LCD_MOSI; The USB module adopts following electrically connecting: 1 pin of integrated circuit connects RXD, 4 pin connect COM_IN, 5 pin connect TXD, 15 pin connect C24,16 pin connect C25,17 pin connect C26, COM_IN, 7 pin, 18 pin, 21 pin, 25, pin, 26 pin, C24, C25, the C26 other end, C23, EC7 ground connection, and 20 pin connect VCC, C23, the EC7 other end; 1 end of J16 connects SBWTCK, and 2 ends connect T_232, and 3 ends connect R_232, and 4 ends connect VCC, D6 positive pole, and 7 ends connect the D5 positive pole, and D4, D5 negative pole connect R54, and the R54 other end connects R55, COM_IN, and 5 ends, 6 ends connect the R55 other end; Real-time clock module adopts following electrically connecting: 1 pin of integrated circuit U8 connects crystal oscillator Y2, C18,2 pin connect the Y2 other end, 5 pin connect IIC_SDA, R20,6 pin connect IIC_SCL, R19,7 pin connect R16,8 pin connect VCC, C11, the R19R20 other end, 4 pin, C11, C18 other end ground connection; The high-capacity FLASH module adopts following electrically connecting: 1 pin of integrated circuit U13 connects FLASH_MOSI, R74,2 pin connect FLASH_CLK, R73,4 pin connect FLASH_CS, R72,8 pin connect FLASH_CS, R75,3,5,6 pin connect R77, C28, R72, R73, R74, R75, VCC connects the R77 other end, and 7 pin connect C28 other end ground connection.
Key-press module adopts 1,2 ends of following electrically connecting: J9 to connect R94, LOG_MODE, 1,2 ends of J11 connect R95, STANDBE, 1 end of J10 connects R92, another termination VCC of R92, R94, R95,3, the 4 end ground connection of 3, the 4 end J11 of J10d 2,3,4 end J9.
Power module adopts 1 pin of following electrically connecting: J1 to connect 4 pin of U1, the VCC18V power supply, 2,3 pin that 3 pin connect U1 connect VCC18V power supply ground, the pin of U1 connects the D8 utmost point, the negative pole of D4, the D8 negative pole connects 1 end of F1,2 ends of F1 connect 1 pin of U32, R200,3 ends of U32 connect EC9, C13, the R200 other end, 2 ends of U2, VCC+, 3 ends of U2 connect EC1, C1, R201, the emitter of triode Q1, the D2 positive pole, VCC 3.3V, the R201 other end connects R202, VCC SENSOR, C201, the collector of Q1, the other end of R202 connects the base stage of Q1,2 pin of U1 connect 2 pin of U32, EC9, C13, the 1 pin EC1 of U2, C1, C201, VCC BAT connects R23, the R23 other end connects R26, BAT IN, the negative pole of D4 connects VCC_BAT, the BT2 anode, the negative terminal of BT2 connects the anode of BT3, D2, the negative pole of D3 connects VCC RTC, the positive pole of D3 connects BT1 anode, the R26 other end, the BT3 negative terminal, the BT1 negativing ending grounding.
Relay module adopts following electrically connecting: VCC+ to connect R88, R71, VCC_3.3V connects R89, R88, the R89 other end connect 8 pin, the D7 negative pole of K1, IO_OUT connects R70, and the other end of R70 connects 1 pin of U19, and 4 pin of U19 connect R90, the R71 other end, the other end of R90 connects the base stage of Q2, the emitter of Q2 connects the positive pole of D7,1 pin of K1, and 2,4 pin of K1 connect 1,2 pin of J3, and 2,3 pin of U19 connect the collector of Q2.
Infrared Remote-Control Sending adopts following electrically connecting: VCC_3.3V to be connected R102, R103, R106, R105 with receiver module, IrDA_OUT connects R100, the R100 other end connects R101, triode Q4 base stage, the R102 other end connects Q4 collector, Q5 base stage, the R103 other end connects the Q5 emitter, and the Q5 collector connects the D9 positive pole, and D10, the R105 other end connect the base stage of Q4, the other end of R106 connects collector, the IrDA_IN of Q4, R101, the D10 other end, Q4 grounded emitter.
Alarm module adopts following electrically connecting: VCC_3.3V to connect R13, R14, the R13 other end connects ALARM warning output, the R15 of real-time clock module, the R15 other end connects the Q3 base stage, the R14 other end connects the Q3 emitter, 1 end of J7 connects R18, the other end of R18 connects the collector of Z1, EC6, Q3,2 ends of J7, the other end ground connection of EC6, Z1.
The humiture detection module adopts as electrically connects: the 3 pin HT_IN_DATA of integrated circuit U30,4 pin connect HT_IN_SCK, 5 pin connect C123, VCC_SENSOR, 2 pin connect the C123 other end, SENSOR connects R122, R121, the R122 other end connects HT_IN_DATA, and the R121 other end connects HT_IN_SCK.
Of the present utility model applied widely, customer investment is low, and remarkable energy saving effect is arranged, the promotional value height.Can utilize existing air-conditioning and blower fan to finish the transformation in warehouse to greatest extent, the actual humiture in record warehouse that can be objective and accurate, and can manage and analyze data, can under unattended situation, finish Temperature and Humidity Control again to the warehouse.It not only is applicable to various warehouses, grain depot, food and medicine health warehouse, heritage archive storehouse, stack room, the humiture monitoring and the control of weapons and ammunitions storehouse, plant equipment storehouse, raw material store etc., also be suitable for various workshops, there are the place of specific (special) requirements in machine room, office etc. to humiture.
Description of drawings:
Accompanying drawing 1 is that the utility model is connected the controlling party block diagram with external unit;
Accompanying drawing 2 is the utility model internal control block schemes;
Accompanying drawing 11 is real-time clock module electrical schematic diagrams of the present utility model;
Accompanying drawing 15 is that central authorities of the present utility model handle electrical schematic diagram.
Embodiment:
The utility model is achieved in that adopting 16 single-chip microcomputers of MSP4302272 high-speed low-power-consumption is that central processing unit connects control power module, key-press module, Infrared Remote-Control Sending and receiver module, high-capacity FLASH module, USB module, alarm module, humiture detection module, LCD module, real-time clock module, relay module composition; Externally connect respectively and control external alarm, blower fan, air-conditioning, air-conditioning remote control, power supply adaptor, PC and printer; The CPU (central processing unit) module adopts following electrically connecting: the CPU (central processing unit) module adopts following electrically connecting: 1 pin of integrated circuit U5 MSP430F2272 connects JTAG TEST, 2 pin connect C4, R8, R9, C98, R30, R31, R32, the VCC power supply, 3 pin connect VCC SENSORCTL, 5 pin, 6 pin connect crystal oscillator Y1,7 pin connect JTAG_RST, the R9 other end, 8 pin connect LOG_MODE, 9 pin connect HT_IN_DATA, 10 pin connect HT_IN_SCK, 11 pin connect FLAH_CS, and 12 pin connect FLAH_MOSI, and 13 pin connect FLASH_MISO, 14 pin connect FLASH_CLK, 16 pin connect R8, and 17 pin connect LCD_CS, and 18 pin connect LCD_SCK, 19 pin connect LCD_MOSI, 20 pin connect IrDA_IN, and 21 pin connect IrDA_OUT, and 22 pin connect IO_OUT, 23 pin connect IO_IN, 25 pin connect TXD, and 26 pin connect RXD, 27BAT_IN, 28 pin connect COM_IN, 30 pin connect IIC_SDA, and 31 pin connect IIC_SCL, and 32 pin connect STANDBY, 33 pin connect PWM_T, 34 pin connect PWM_H, and 35 pin connect JTAG_TCK, and 36 pin connect JTAG_TMS, 37 pin connect JTAG_TAI, and 38 pin connect JTAG_TDO; The LCD module adopts following electrically connecting: 1 pin of integrated circuit U15 HT1622 connects LCD_CS, and 4 pin connect LCD_SCK, and 5 pin connect LCD_MOSI, 8 pin connect R17, and 9 pin connect EC5, VCC_3.3V, the R17 other end, and 17 pin connect COM0,18 pin connect COM1,20 pin connect COM2, and 21 pin connect COM3, and 22 pin connect COM4,31 pin connect SEG6,32 pin connect SEG7, and the 36-48 pin connects SEG8-SEG20, and the 53-64 pin connects SEG21-SEG32; The 1-5 pin of integrated circuit M1HST071252C-FSTN connects COM0-COM4, and the 6-32 pin connects SEG6-SEG32, and R30 other end pin connects LCD_CS, and R31 other end pin connects LCD_SCK, and R32 other end pin connects LCD_MOSI; The USB module adopts following electrically connecting: 1 pin of integrated circuit U10 FT232RL connects RXD, 4 pin connect COM_IN, 5 pin connect TXD, 15 pin connect C24,16 pin connect C25,17 pin connect C26, COM_IN, 7 pin, 18 pin, 21 pin, 25, pin, 26 pin, C24, C25, the C26 other end, C23, EC7 ground connection, and 20 pin connect VCC_USB, C23, the EC7 other end; 1 end of J16 is connected to VCC_3.3V, and 2 ends connect T_232, and 3 ends connect R_232,4 ends connect VCC_USB, D6 positive pole, and 7 ends connect the D5 positive pole, and D4, D5 negative pole connect R54, the R54 other end connects R55, COM_IN, and 5 ends, 6 ends and the R55 other end are connected to ground jointly; Real-time clock module adopts following electrically connecting: 1 pin of integrated circuit U8 connects crystal oscillator Y2, C18,2 pin connect the Y2 other end, 5 pin connect IIC_SDA, R20,6 pin connect IIC_SCL, R19,7 pin connect R16, and 8 pin connect VCC_RTC, C11, R19, the R20 other end are connected to VCC_3.3V, 4 pin, C11, C18 other end ground connection; The high-capacity FLASH module adopts following electrically connecting: 1 pin of integrated circuit U13 AT45DB04 connects FLASH_MOSI, R74,2 pin connect FLASH_CLK, R73,4 pin connect FLASH_CS, R72,8 pin connect FLASH_CS, R75,3,5,6 pin connect R77, C28, R72, R73, R74, R75, VCC_3.3V connects the R77 other end, and 7 pin connect C28 other end ground connection.
Key-press module adopts 1,2 ends of following electrically connecting: J9 to connect R94, LOG_MODE, 1,2 ends of J11 connect R95, STANDBE, 1 end of J10 connects R92, another termination VCC of R92, R94, R95,3, the 4 end ground connection of 3, the 4 end J11 of J10d 2,3,4 end J9.
Power module adopts 1 pin of following electrically connecting: J1 to connect 4 pin of U1MB6S, the VCC_18V power supply, 2,3 pin that 3 pin connect U1 connect VCC_18V power supply ground, the pin of U1 MB6S connects the D8 positive pole, the negative pole of D4, the D8 negative pole connects 1 end of F1,2 ends of F1 connect 1 pin of U32LM7812, R200,3 ends of U32 connect EC9, C13, the R200 other end, 2 ends of U2 HT7533, VCC+, 3 ends of U2HT7533 connect EC1, C1, R201, the emitter of triode Q1, the D2 positive pole, VCC3.3V, the R201 other end connects R202, VCC SENSOR, C201, the collector of Q1, the other end of R202 connects the base stage of Q1,2 pin of U1MB6S connect 2 pin of U32, EC9, C13, the 1 pin EC1 of U2, C1, C201, VCC BAT connects R23, the R23 other end connects R26, BAT IN, the negative pole of D4 connects VCC_BAT, the BT2 anode, the negative terminal of BT2 connects the anode of BT3, D2, the negative pole of D3 connects VCC RTC, the positive pole of D3 connects BT1 anode, the R26 other end, the BT3 negative terminal, the BT1 negativing ending grounding.
Relay module adopts following electrically connecting: VCC+ to connect R88, R71, VCC_3.3V connects R89, R88, the R89 other end connect 8 pin, the D7 negative pole of K1, IO_OUT connects R70, and the other end of R70 connects 1 pin of U19, and 4 pin of U19 connect R90, the R71 other end, the other end of R90 connects the base stage of Q2, the emitter of Q2 connects the positive pole of D7,1 pin of K1, and 2,4 pin of K1 connect 1,2 pin of J3, and 2,3 pin of U19PC814 connect the collector of Q2.
Infrared Remote-Control Sending adopts following electrically connecting: VCC_3.3V to be connected R102, R103, R106, R105 with receiver module, IrDA_OUT connects R100, the R100 other end connects R101, triode Q4 base stage, the R102 other end connects Q4 collector, Q5 base stage, the R103 other end connects the Q5 emitter, and the Q5 collector connects the D9 positive pole, and D10, the R105 other end connect the base stage of Q6, the other end of R106 connects collector, the IrDA_IN of Q6, R101, the D10 other end, Q6 grounded emitter.
Alarm module adopts following electrically connecting: VCC_3.3V to connect R13, R14, the R13 other end connects ALARM warning output, the R15 of real-time clock module, the R15 other end connects the Q3 base stage, the R14 other end connects the Q3 emitter, 1 end of J7 connects R18, the other end of R18 connects the collector of Z1, EC6, Q3,2 ends of J7, the other end ground connection of EC6, Z1.
The humiture detection module adopts as electrically connects: the 3 pin HT_IN_DATA of integrated circuit U30 SH11,4 pin connect HT_IN_SCK, 5 pin connect C123, VCC_SENSOR, 2 pin connect the C123 other end, SENSOR connects R122, R121, the R122 other end connects HT_IN_DATA, and the R121 other end connects HT_IN_SCK.
Humiture testing circuit principle of work
(1) USB module 15:USB module 15 responsible CPU (central processing unit) 9 communicate with host computer PC 7.Host computer 7 is according to customer requirements, with the employing time interval parameter that sets send to USB module 15, USB module 15 is transmitted to CPU (central processing unit) 9 with the parameter that is provided with.
(2) the humiture detection module 19: be installed in indoor humiture detecting unit and be responsible for temperature and humidity in the sensing chamber by humiture one probe SH11, and be connected with CPU (central processing unit) 9 by two signal line.CPU (central processing unit) 9 sends instruction according to the sampling time that the user is provided with to SH11, read SH11 detect the humiture value.
Humiture writing task principle
(1) USB module 15:USB module 15 responsible CPU (central processing unit) 9 communicate with host computer PC 7.Host computer 7 is according to customer requirements, with spacing parameter writing time that sets send to USB module 15, USB module 15 is transmitted to CPU (central processing unit) 9 with the parameter that is provided with.
(2) CPU (central processing unit) 9 is when being provided with writing time, and the humiture value that reads the real-time time of real-time clock module 18 and the last sampling is stored in it in the assigned address in high-capacity FLASH module 14 according to named order.
Infrared remote control air-conditioning work principle
(1), the instruction of study air-conditioning remote control: infrared reception is responsible for the infrared therapeutic that the various different air-conditioning remote controls of study send with sending module 13.At first there is PC to send instructions for 7 times, what tell infrared reception and sending module 13 study now is that instruction, user's air-conditioning remote control 5 that it is used is aimed at the infrared receiving tube place of infrared reception and sending module 13 then, press the function key of appointment, infrared reception and sending module 13 are by measuring the principle of pulse width, duplicate and receive to such an extent that the infrared pulse signal of air-conditioning remote control carries out self study, and will learn in the assigned address that call instruction is stored in FLASH.
(2), control air-conditioning: the humiture value that CPU (central processing unit) 9 detects according to humiture detecting unit 19, according to pid algorithm, judgement is to the control action of air-conditioning.Be out, stop still to be to heat up, lower the temperature and dehumidifying.CPU (central processing unit) 9 obtains the control action that needs are carried out according to pid algorithm, then instruction is sent to infrared remote control and sends and receiver module 13.The instruction that infrared remote control sends and receiver module 13 bases are received is read from the address of FLASH appointment and is learnt call instruction, by infrared transmission pipe instruction is sent then.Air-conditioning 4 is just carried out this instruction, thereby reaches the purpose of automatic remote control air-conditioning.
The relay module principle of work
The alarm module principle of work
Claims (7)
1, a kind of Temperature and Humidity Control registering instrument is characterized in that: power module, key-press module, Infrared Remote-Control Sending and the receiver module, high-capacity FLASH module, USB module, alarm module, humiture detection module, LCD module, real-time clock module, the relay module that are connected control by central processing unit are formed; Externally connect respectively and control external alarm, blower fan, air-conditioning, air-conditioning remote control, power supply adaptor, PC and printer; Central processing unit adopts following electrically connecting: 1 pin of integrated circuit U5 connects JTAG TEST, 2 pin connect C4, R8, R9, C98, R30, R31, R32, the VCC power supply, 3 pin connect VCC SENSOR CTL, 5 pin, 6 pin connect crystal oscillator Y1,7 pin connect JTAG_RST, the R9 other end, 8 pin connect LOG_MODE, 9 pin connect HT_IN_DATA, 10 pin connect HT_IN_SCK, 11 pin connect FLAH_CS, and 12 pin connect FLAH_MOSI, and 13 pin connect FLASH_MISO, 14 pin connect FLASH_CLK, 16 pin connect R8, and 17 pin connect LCD_CS, and 18 pin connect LCD_SCK, 19 pin connect LCD_MOSI, 20 pin connect IrDA_IN, and 21 pin connect IrDA_OUT, and 22 pin connect IO_OUT, 23 pin connect IO_IN, 25 pin connect TXD, and 26 pin connect RXD, 27BAT_IN, 28 pin connect COM_IN, 30 pin connect IIC_SDA, and 31 pin connect IIC_SCL, and 32 pin connect STANDBY, 33 pin connect PWM_T, 34 pin connect PWM_H, and 35 pin connect JTAG_TCK, and 36 pin connect JTAG_TMS, 37 pin connect JTAG_TAI, and 38 pin connect JTAG_TDO; The LCD module adopts following electrically connecting: 1 pin of integrated circuit U15 connects LCD_CS, and 4 pin connect LCD_SCK, and 5 pin connect LCD_MOSI, 8 pin connect R17, and 9 pin connect EC5, VCC, the R17 other end, and 17 pin connect COM0,18 pin connect COM1,20 pin connect COM2, and 21 pin connect COM3, and 22 pin connect COM4,31 pin connect SEG6,32 pin connect SEG7, and the 36-48 pin connects SEG8-SEG20, and the 53-64 pin connects SEG21-SEG32; The 1-5 pin of integrated circuit M1 connects COM0-COM4, and the 6-32 pin connects SEG6-SEG32, and R30 other end pin connects LCD_CS, and R31 other end pin connects LCD_SCK, and R32 other end pin connects LCD_MOSI; The USB module adopts following electrically connecting: 1 pin of integrated circuit U10 connects RXD, 4 pin connect COM_IN, 5 pin connect TXD, 15 pin connect C24,16 pin connect C25,17 pin connect C26, COM_IN, 7 pin, 18 pin, 21 pin, 25, pin, 26 pin, C24, C25, the C26 other end, C23, EC7 ground connection, and 20 pin connect VCC_USB, C23, the EC7 other end; 1 end of J16 is connected to VCC_3.3V, and 2 ends connect T_232, and 3 ends connect R_232,4 ends connect VCC_USB, D6 positive pole, and 7 ends connect the D5 positive pole, and D4, D5 negative pole connect R54, the R54 other end connects R55, COM_IN, and 5 ends, 6 ends and the R55 other end are connected to ground jointly; Real-time clock module adopts following electrically connecting: 1 pin of integrated circuit U8 connects crystal oscillator Y2, C18,2 pin connect the Y2 other end, 5 pin connect IIC_SDA, R20,6 pin connect IIC_SCL, R19,7 pin connect R16, and 8 pin connect VCC_RTC, C11, R19, the R20 other end are connected to VCC_3.3V, 4 pin, C11, C18 other end ground connection; The high-capacity FLASH module adopts following electrically connecting: 1 pin of integrated circuit U13 connects FLASH_MOSI, R74,2 pin connect FLASH_CLK, R73,4 pin connect FLASH_CS, R72,8 pin connect FLASH_CS, R75,3,5,6 pin connect R77, C28, R72, R73, R74, R75, VCC_3.3V connects the R77 other end, and 7 pin connect C28 other end ground connection.
2, Temperature and Humidity Control registering instrument as claimed in claim 1, it is characterized in that: key-press module adopts 1,2 ends of following electrically connecting: J9 to connect R94, LOG_MODE, 1,2 ends of J11 connect R95, STANDBE, 1 end of J10 connects R92, another termination VCC_3.3V of R92, R94, R95,3, the 4 end ground connection of 3, the 4 end J11 of 2,3, the 4 end J9 of J10.
3, Temperature and Humidity Control registering instrument as claimed in claim 1, it is characterized in that: power module adopts 1 pin of following electrically connecting: J1 to connect 4 pin of U1, the VCC_18V power supply, 2,3 pin connect 3 pin of U1, be connected to the power supply ground of VCC_18V, the pin of U1 connects the D8 positive pole, the negative pole of D4, the D8 negative pole connects 1 end of F1,2 ends of F1 connect 1 pin of U32, R200,3 ends of U32 connect EC9, C13, the R200 other end, 2 ends of U2, VCC+, 3 ends of U2 connect EC1, C1, R201, the emitter of triode Q1, the D2 positive pole, VCC3.3V, the R201 other end connects R202, VCC_SENSOR, C201, the collector of Q1, the other end of R202 connects the base stage of Q1,2 pin of U1 connect 2 pin of U32, EC9, C13, the 1 pin EC1 of U2, C1, C201, VCC_BAT connects R23, the R23 other end connects R26, BAT_N, the negative pole of D4 connects VCC_BAT, the BT2 anode, the negative terminal of BT2 connects the anode of BT3, D2, the negative pole of D3 connects VCC RTC, the positive pole of D3 connects BT1 anode, the R26 other end, the BT3 negative terminal, the BT1 negativing ending grounding.
4, Temperature and Humidity Control registering instrument as claimed in claim 1, it is characterized in that: relay module adopts following electrically connecting: VCC+ to connect R88, R71, VCC_3.3V connects R89, R88, the R89 other end connect 8 pin, the D7 negative pole of K1, IO_OUT connects R70, the other end of R70 connects 1 pin of U19,4 pin of U19 connect R90, the R71 other end, the other end of R90 connects the base stage of Q2, the emitter of Q2 connects the positive pole of D7,1 pin of K1,2,4 pin of K1 connect 1,2 pin of J3, and 2,3 pin of U19 connect the collector of Q2.
5, Temperature and Humidity Control registering instrument as claimed in claim 1, it is characterized in that: Infrared Remote-Control Sending adopts following electrically connecting with receiver module: VCC_3.3V is connected R102, R103, R106, R105, IrDA_OUT connects R100, the R100 other end connects R101, triode Q4 base stage, the R102 other end connects the Q4 collector, the Q5 base stage, the R103 other end connects the Q5 emitter, the Q5 collector connects the D9 positive pole, D10, the R105 other end connects the base stage of Q6, the other end of R106 connects the collector of Q6, IrDA_IN, R101, the D10 other end, Q6 and Q4 grounded emitter.
6, Temperature and Humidity Control registering instrument as claimed in claim 1, it is characterized in that: alarm module adopts following electrically connecting: VCC_3.3V to connect R13, R14, the R13 other end connects ALARM, R15, the R15 other end connects the Q3 base stage, and the R14 other end connects the Q3 emitter, and 1 end of J7 connects R18, the other end of R18 connects the collector of Z1, EC6, Q3,2 ends of J7, the other end ground connection of EC6, Z1.
7, Temperature and Humidity Control registering instrument as claimed in claim 1, it is characterized in that: the humiture detection module adopts following electrically connecting: the 3 pin HT_IN_DATA of integrated circuit U30,4 pin connect HT_IN_SCK, 5 pin connect C123, VCC_SENSOR, 2 pin connect the C123 other end, VCC_SENSOR connects R122, R121, and the R122 other end connects HT_IN_DATA, and the R121 other end connects HT_IN_SCK.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2009201322505U CN201425719Y (en) | 2009-05-27 | 2009-05-27 | Temperature and humidity control recorder |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2009201322505U CN201425719Y (en) | 2009-05-27 | 2009-05-27 | Temperature and humidity control recorder |
Publications (1)
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CN201425719Y true CN201425719Y (en) | 2010-03-17 |
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CN2009201322505U Expired - Fee Related CN201425719Y (en) | 2009-05-27 | 2009-05-27 | Temperature and humidity control recorder |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101979929A (en) * | 2010-09-02 | 2011-02-23 | 南京南自信息技术有限公司 | Self-learning intelligent air-conditioning remote terminal |
CN102563815A (en) * | 2012-02-20 | 2012-07-11 | 武汉达明科技有限公司 | Underground water energy-saving air conditioning control method and system |
CN104457857A (en) * | 2014-12-25 | 2015-03-25 | 李钢 | Outdoor temperature and humidity acquisition circuit |
CN105890129A (en) * | 2016-06-14 | 2016-08-24 | 安聪聪 | System and method for controlling temperature and humidity of air conditioner |
CN105910232A (en) * | 2016-04-29 | 2016-08-31 | 广东美的制冷设备有限公司 | Air conditioner control method, system and air conditioner based on neighboring air conditioner setting learning |
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2009
- 2009-05-27 CN CN2009201322505U patent/CN201425719Y/en not_active Expired - Fee Related
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101979929A (en) * | 2010-09-02 | 2011-02-23 | 南京南自信息技术有限公司 | Self-learning intelligent air-conditioning remote terminal |
CN101979929B (en) * | 2010-09-02 | 2012-09-26 | 南京南自信息技术有限公司 | Self-learning intelligent air-conditioning remote terminal |
CN102563815A (en) * | 2012-02-20 | 2012-07-11 | 武汉达明科技有限公司 | Underground water energy-saving air conditioning control method and system |
CN102563815B (en) * | 2012-02-20 | 2015-02-11 | 武汉达明科技有限公司 | Underground water energy-saving air conditioning control method and system |
CN104457857A (en) * | 2014-12-25 | 2015-03-25 | 李钢 | Outdoor temperature and humidity acquisition circuit |
CN105910232A (en) * | 2016-04-29 | 2016-08-31 | 广东美的制冷设备有限公司 | Air conditioner control method, system and air conditioner based on neighboring air conditioner setting learning |
CN105890129A (en) * | 2016-06-14 | 2016-08-24 | 安聪聪 | System and method for controlling temperature and humidity of air conditioner |
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