CN202195901U - Handheld type debugger for flow-temperature process heat distributing device in heating household-based metering system - Google Patents

Handheld type debugger for flow-temperature process heat distributing device in heating household-based metering system Download PDF

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Publication number
CN202195901U
CN202195901U CN2011202995586U CN201120299558U CN202195901U CN 202195901 U CN202195901 U CN 202195901U CN 2011202995586 U CN2011202995586 U CN 2011202995586U CN 201120299558 U CN201120299558 U CN 201120299558U CN 202195901 U CN202195901 U CN 202195901U
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China
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pin
mouth
capacitor
ground connection
connection gnd
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CN2011202995586U
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田爱军
张兴义
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LANZHOU HAIYUAN TECHNOLOGY Co Ltd
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LANZHOU HAIYUAN TECHNOLOGY Co Ltd
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Abstract

The utility model discloses a handheld type debugger for a flow-temperature-process heat distributing device in a heating household-based metering system, comprising a power supply module, a wireless single chip microcomputer U1, a key module, a display unit, an RTC (real-time communication) and EEPROM (electrically erasable programmable read-only memory) module and a wireless communication unit for connecting with the flow-temperature-process heat distributing device, wherein the key module, the wireless single chip microcomputer U1 and the display unit are connected in sequence; and the power supply module, the RTC and EEPROM module and the wireless communication unit are respectively connected with the wireless single chip microcomputer U1. The handheld type debugger overcomes the defects in the prior art that the working state can not be detected and the difficulty in installation and debugging is high and the like so as to realize the advantages of capability of detecting the working state, convenience in installation and debugging, good communication compatibility and simple operation mode.

Description

The hot sharing device of stream warm therapy is used the hand-held debugger in the household based heat metering system
Technical field
The utility model relates to the vertical single tube heating system of building, particularly, relates in the household based heat metering system the hot sharing device of stream warm therapy and uses the hand-held debugger.
Background technology
At present; Adopt stream warm therapy heat to share in the system of metering method in the vertical single tube household based heat metering of building system; There have a large amount of Temperature samplers and data collector need be installed in resident family to be indoor and outdoor, and Temperature sampler, data collector, heat energy divider, user inquiring device, heat summary table, communication line, management software constitute stream warm therapy heat jointly and share WT-MSR (being called for short the hot sharing device of stream warm therapy).
Wherein, Temperature sampler when mounted, the Installation and Debugging personnel are except that can learning whether its work normal through being contained in light emitting diode on the box interior circuit board when judging that it powers on the duty.Equally, data collector is not owing to have the man-machine interaction display interface yet, and the Installation and Debugging personnel can't judge its wireless communication state and duty.
In sum, in realizing the process of the utility model, utility model people finds to exist at least in the prior art can't the testing state and defective such as the Installation and Debugging difficulty is big.
The utility model content
The purpose of the utility model is, to the problems referred to above, propose in the household based heat metering system the hot sharing device of stream warm therapy and use the hand-held debugger, with realize can the testing state, Installation and Debugging make things convenient for, communication compatibility is good and the simple advantage of mode of operation.
For realizing above-mentioned purpose; The technical scheme that the utility model adopts is: the hot sharing device of stream warm therapy is used the hand-held debugger in the household based heat metering system; Comprise power module, wireless singlechip U1, key-press module, display unit, real-time timepiece chip (Real-Time Clock; Be called for short RTC) and EEPROM (be EEPROM; The storage chip that data are not lost after a kind of power down) module and the radio communication unit that is used for and flows the hot sharing device wireless connections of warm therapy, wherein: said key-press module, wireless singlechip U1 and display unit connect successively; Said power module, RTC and EEPROM module and radio communication unit all are connected with wireless singlechip U1.
Further, said radio communication unit comprises radio receiving transmitting module and the antenna E1 that connects successively, and said wireless singlechip U1 is connected with radio receiving transmitting module.
Further, said display unit comprises the LCD display module, and is used for the LCD display module interface that said LCD display module is connected with wireless singlechip U1.
Further, the model of said wireless singlechip U1 is CC1110F32.
Further, said power module comprises direct supply VCC, 2 pin socket J4, and waved switch JP1, model is the low-dropout regulator U2 of MC33275ST-3.3T3, and electrochemical capacitor C21 and C22; Wherein:
Said model is that the 1st pin of the low-dropout regulator U2 of MC33275ST-3.3T3 is connected with the positive pole of direct supply VCC and electrochemical capacitor C21; The 2nd pin ground connection GND also is connected with the negative pole of electrochemical capacitor C21; The 3rd pin is OUT3.3V_P end and is connected with the positive pole of electrochemical capacitor C22, and the 4th pin ground connection GND also is connected with the negative pole of electrochemical capacitor C22;
The 1st pin ground connection GND of said 2 pin socket J4, the 2nd pin meets direct supply VCC; The 1st pin of waved switch JP1 is the OUT3.3V_P end, and the 2nd pin is the OUT3.3V end, and the 3rd pin is the OUT3.3V_D end.
Further; Said radio receiving transmitting module comprises capacitor C 101, C102, C103, C104, C105, C106, C107, C121, C122, C123, C124, C125, C131, C132, C133, C134, C135 and C141; Inductance L 01, L131, L132, L133 and L141, resistance R 16, R17 and R121, crystal oscillator Y1 and Y2; Light emitting diode D2, and the connector J1 of 5 * 2 joints; Wherein:
Said model is that the P0_0 mouth of the wireless singlechip U1 of CC1110F32 is the DS_SCL end, and the P0_1 mouth is the DS_SDA end, and the P0_4 mouth is the KEY1 end, and the P0_5 mouth is the KEY2 end; The P0_6 mouth is the KEY3 end, and the P0_7 mouth is the KEY4 end, and the P1_1 mouth is the P1.0 end and after resistance R 16, is connected with the negative electrode of light emitting diode D2; The P1_2 mouth is the DISP_SID end, and the P1_3 mouth is the DISP_SCLK end, and the P1_4 mouth is the CSN end; The P1_5 mouth is the SCK end, and the P1_6 mouth is the MOSI end, and the P1_7 mouth is the MISO end; The P2_0 mouth is the KEY5 end, and the P2_1 mouth is the DEBUG_D end, and the P2_2 mouth is the DEBUG_C end; The RF_P mouth connects signal ground successively behind inductance L 131 and C134, and after capacitor C 131, inductance L 132 and capacitor C 132, connects signal ground successively; The RF_N mouth connects signal ground after capacitor C 141, and behind electric capacity L141, is connected with the common port of capacitor C 131 and inductance L 132; The RESET_N mouth is the RESET end and after resistance R 17, connects the OUT3.3V end; The RBIAS mouth is ground connection GND after resistance R 121, and the DCOUPL mouth is ground connection GND after capacitor C 125; The XSOC_Q1 mouth is connected and ground connection GND after capacitor C 121 with first link of crystal oscillator Y1; The XSOC_Q2 mouth is connected and ground connection GND after capacitor C 122 with second link of crystal oscillator Y1; The P2_3 mouth be connected with first link of crystal oscillator Y2 and after capacitor C 124 ground connection GND, the P2_4 mouth is connected and ground connection GND after capacitor C 123 with second link of crystal oscillator Y2; The AVDD mouth is ground connection GND after capacitor C 107; Ground connection GND after capacitor C 106, ground connection GND after capacitor C 105, ground connection GND after capacitor C 102; Ground connection GND after capacitor C 103; Ground connection GND after capacitor C 104, and successively through inductance L 101 and capacitor C 101 back ground connection GND, inductance L 101 is that OUT3.3V holds with the common port of capacitor C 101;
The 1st pin ground connection GND of the connector J1 of said 5 * 2 joints, the 2nd pin are the OUT3.3V_D end, and the 3rd pin is the DEBUG_C end; The 4th pin is the DEBUT_D end; The 5th pin is the CSN end, and the 6th pin is the SCK end, and the 7th pin is the RESET end; The 8th pin is the MOSI end, and the 9th pin is the MISO end;
The anode of said light emitting diode D2 is the OUT3.3V end; First link of inductance L 133 is connected with the common port of inductance L 132 with capacitor C 132, and second link is through connecing signal ground and after capacitor C 135, meeting antenna E1 after the capacitor C 133.
Further, said key-press module comprises button PK1, and resistance R 11, R12, R13, R14 and R15; Wherein:
The 1st pin ground connection GND of said button PK1; The 2nd pin is the KEY1 end and after resistance R 11, connects the OUT3.3V end; The 3rd pin is the KEY2 end and after resistance R 12, connects the OUT3.3V end; The 4th pin is the KEY3 end and after resistance R 13, connects the OUT3.3V end that the 5th pin is the KEY4 end and after resistance R 14, connects the OUT3.3V end that the 6th pin is the KEY5 end and after resistance R 15, connects the OUT3.3V end.
Further, said LCD display module interface comprises the connector J3 and the adjustable resistor RD1 of 10 joints; The 1st pin ground connection GND of the connector J3 of said 10 joints; The 2nd pin and the 4th pin all connect the OUT3.3V end, and the 3rd pin is connected with the adjustable side of adjustable resistor RD1, and the 5th pin connects the DISP_SID end; The 6th pin connects the DISP_SCLK end; The 8th pin is connected with first stiff end of adjustable resistor RD1, and the 9th pin is connected with the positive input terminal LED+ of LCD display module and connects the OUT3.3V end, and the 10th pin is connected and ground connection GND with the negative input end LED-of LCD display module; It is unsettled that second of adjustable resistor RD1 is fixedly connected end.
Further, said RTC and EEPROM module comprise that model is the clock chip U5 of DS1388, crystal oscillator Y3, electrochemical capacitor C51, and resistance R 51 and R52; Wherein:
Said model is the 1st pin of the clock chip U5 of DS1388, is connected with the 2nd pin through crystal oscillator Y3; The 3rd pin is connected with the positive pole of electrochemical capacitor C51, and the 4th pin is connected and ground connection GND with the negative pole of electrochemical capacitor C51; The 5th pin is the DS_SDA end and after resistance R 51, connects the OUT3.3V end that the 6th pin is the DS_SCL end and after resistance R 52, connects the OUT3.3V end that the 8th pin connects the OUT3.3V end.
The hot sharing device of stream warm therapy is used the hand-held debugger in the household based heat metering system of each embodiment of the utility model; Owing to comprise power module, wireless singlechip U1, key-press module, display unit, RTC and EEPROM module and the radio communication unit that is used for and flows the hot sharing device wireless connections of warm therapy; Wherein: key-press module, wireless singlechip U1 and display unit connect successively; Power module, RTC and EEPROM module and radio communication unit all are connected with wireless singlechip U1; Can communicate with the hot sharing device of stream warm therapy, obtain the temperature parameter of Temperature sampler collection or the temperature parameter of whole nodes that data collector is collected, thereby judge the correctness of its duty; Can't testing state and the big defective of Installation and Debugging difficulty thereby can overcome in the prior art, with realize can the testing state, Installation and Debugging are convenient, communication compatibility is good and the simple advantage of mode of operation.
Further feature of the utility model and advantage will be set forth in instructions subsequently, and, partly from instructions, become obvious, perhaps understand through implementing the utility model.The purpose of the utility model can realize through the structure that in the instructions of being write, claims and accompanying drawing, is particularly pointed out and obtain with other advantages.
Through accompanying drawing and embodiment, the technical scheme of the utility model is done further detailed description below.
Description of drawings
Accompanying drawing is used to provide the further understanding to the utility model, and constitutes the part of instructions, is used to explain the utility model with the embodiment of the utility model, does not constitute the restriction to the utility model.In the accompanying drawings:
Fig. 1 is the principle of work synoptic diagram of the hand-held debugger used according to the hot sharing device of the utility model stream warm therapy;
Fig. 2 a, Fig. 2 b, Fig. 2 c and Fig. 2 d are with the electrical principle synoptic diagram of radio receiving transmitting module in the hand-held debugger according to the hot sharing device of stream warm therapy in the utility model household based heat metering system;
Fig. 3 a, Fig. 3 b and Fig. 3 c are with the electrical principle synoptic diagram of power module in the hand-held debugger according to the hot sharing device of stream warm therapy in the utility model household based heat metering system;
Fig. 4 a and Fig. 4 b are with the electrical principle synoptic diagram of key-press module in the hand-held debugger according to the hot sharing device of stream warm therapy in the utility model household based heat metering system;
Fig. 5 is with the electrical principle synoptic diagram of LCD display module interface in the hand-held debugger according to the hot sharing device of stream warm therapy in the utility model household based heat metering system;
Fig. 6 is with the electrical principle synoptic diagram of RTC in the hand-held debugger and EEPROM module according to the hot sharing device of stream warm therapy in the utility model household based heat metering system.
In conjunction with accompanying drawing, Reference numeral is following among the utility model embodiment:
1-antenna E1; The 2-radio receiving transmitting module; The 3-key-press module; 4-wireless singlechip U1; The 5-LCD display screen; The 6-power module.
Embodiment
Describe below in conjunction with the preferred embodiment of accompanying drawing, should be appreciated that preferred embodiment described herein only is used for explanation and explains the utility model, and be not used in qualification the utility model the utility model.
According to the utility model embodiment,, provide in the household based heat metering system the hot sharing device of stream warm therapy to use the hand-held debugger like Fig. 1-shown in Figure 6.
As shown in Figure 1; Present embodiment comprises power module 6, wireless singlechip U1 4, key-press module 3, display unit, RTC and EEPROM module and the radio communication unit that is used for and flows the hot sharing device wireless connections of warm therapy; Wherein: key-press module 3, wireless singlechip U1 4 and display unit connect successively; Power module 6, RTC and EEPROM module and radio communication unit all are connected with wireless singlechip U1 4.
Here, above-mentioned radio communication unit comprises the radio receiving transmitting module 2 and antenna (ANTENNA) E1 1 that connects successively, and wireless singlechip U1 4 is connected with radio receiving transmitting module 2; Display unit comprises LCD display module 5, and is used for the LCD display module interface that LCD display module 5 is connected with wireless singlechip U1 4; The model of wireless singlechip U1 4 is CC1110F32.
Particularly, shown in Fig. 3 a, Fig. 3 b and Fig. 3 c, above-mentioned power module 6 comprises direct supply VCC, 2 pin socket J4, and waved switch JP1, model is the low-dropout regulator U2 of MC33275ST-3.3T3, and electrochemical capacitor C21 and C22; Wherein: model is that the 1st pin of the low-dropout regulator U2 of MC33275ST-3.3T3 is connected with the positive pole of direct supply VCC and electrochemical capacitor C21; The 2nd pin ground connection GND also is connected with the negative pole of electrochemical capacitor C21; The 3rd pin is OUT3.3V_P end and is connected with the positive pole of electrochemical capacitor C22, and the 4th pin ground connection GND also is connected with the negative pole of electrochemical capacitor C22; The 1st pin ground connection GND of 2 pin socket J4, the 2nd pin meets direct supply VCC; The 1st pin of waved switch JP1 is the OUT3.3V_P end, and the 2nd pin is the OUT3.3V end, and the 3rd pin is the OUT3.3V_D end.
Shown in Fig. 2 a, Fig. 2 b, Fig. 2 c and Fig. 2 d; Above-mentioned radio receiving transmitting module 2 comprises capacitor C 101, C102, C103, C104, C105, C106, C107, C121, C122, C123, C124, C125, C131, C132, C133, C134, C135 and C141; Inductance L 01, L131, L132, L133 and L141, resistance R 16, R17 and R121, crystal oscillator Y1 and Y2; Light emitting diode D2, and the connector of 5 * 2 joints (HEADER) J1; Wherein:
Model is that the P0_0 mouth of the wireless singlechip U1 4 of CC1110F32 is the DS_SCL end, and the P0_1 mouth is the DS_SDA end, and the P0_4 mouth is the KEY1 end, and the P0_5 mouth is the KEY2 end; The P0_6 mouth is the KEY3 end, and the P0_7 mouth is the KEY4 end, and the P1_1 mouth is the P1.0 end and after resistance R 16, is connected with the negative electrode of light emitting diode D2; The P1_2 mouth is the DISP_SID end, and the P1_3 mouth is the DISP_SCLK end, and the P1_4 mouth is the CSN end; The P1_5 mouth is the SCK end, and the P1_6 mouth is the MOSI end, and the P1_7 mouth is the MISO end; The P2_0 mouth is the KEY5 end, and the P2_1 mouth is the DEBUG_D end, and the P2_2 mouth is the DEBUG_C end; The RF_P mouth connects signal ground successively behind inductance L 131 and C134, and after capacitor C 131, inductance L 132 and capacitor C 132, connects signal ground successively; The RF_N mouth connects signal ground after capacitor C 141, and behind electric capacity L141, is connected with the common port of capacitor C 131 and inductance L 132; The RESET_N mouth is the RESET end and after resistance R 17, connects the OUT3.3V end; The RBIAS mouth is ground connection GND after resistance R 121, and the DCOUPL mouth is ground connection GND after capacitor C 125; The XSOC_Q1 mouth is connected and ground connection GND after capacitor C 121 with first link of crystal oscillator Y1; The XSOC_Q2 mouth is connected and ground connection GND after capacitor C 122 with second link of crystal oscillator Y1; The P2_3 mouth be connected with first link of crystal oscillator Y2 and after capacitor C 124 ground connection GND, the P2_4 mouth is connected and ground connection GND after capacitor C 123 with second link of crystal oscillator Y2; The AVDD mouth is ground connection GND after capacitor C 107; Ground connection GND after capacitor C 106, ground connection GND after capacitor C 105, ground connection GND after capacitor C 102; Ground connection GND after capacitor C 103; Ground connection GND after capacitor C 104, and successively through inductance L 101 and capacitor C 101 back ground connection GND, inductance L 101 is that OUT3.3V holds with the common port of capacitor C 101;
The 1st pin ground connection GND of the connector J1 of 5 * 2 joints, the 2nd pin are the OUT3.3V_D end, and the 3rd pin is the DEBUG_C end; The 4th pin is the DEBUT_D end, and the 5th pin is the CSN end, and the 6th pin is the SCK end; The 7th pin is the RESET end, and the 8th pin is the MOSI end, and the 9th pin is the MISO end;
The anode of light emitting diode D2 is the OUT3.3V end; First link of inductance L 133 is connected with the common port of inductance L 132 with capacitor C 132, and second link is through connecing signal ground and after capacitor C 135, meeting antenna E1 1 after the capacitor C 133.
Shown in Fig. 4 a and Fig. 4 b, above-mentioned key-press module 3 comprises button PK1, and resistance R 11, R12, R13, R14 and R15; Wherein: the 1st pin ground connection GND of button PK1; The 2nd pin is the KEY1 end and after resistance R 11, connects the OUT3.3V end; The 3rd pin is the KEY2 end and after resistance R 12, connects the OUT3.3V end; The 4th pin is the KEY3 end and after resistance R 13, connects the OUT3.3V end that the 5th pin is the KEY4 end and after resistance R 14, connects the OUT3.3V end that the 6th pin is the KEY5 end and after resistance R 15, connects the OUT3.3V end.
As shown in Figure 5, above-mentioned LCD display module interface comprises connector (HEADER) J3 and the adjustable resistor RD1 of 10 joints; The 1st pin ground connection GND of the connector J3 of 10 joints; The 2nd pin and the 4th pin all connect the OUT3.3V end, and the 3rd pin is connected with the adjustable side of adjustable resistor RD1, and the 5th pin connects the DISP_SID end; The 6th pin connects the DISP_SCLK end; The 8th pin is connected with first stiff end of adjustable resistor RD1, and the 9th pin is connected with the positive input terminal LED+ of LCD display module 5 and connects the OUT3.3V end, and the 10th pin is connected and ground connection GND with the negative input end LED-of LCD display module 5; It is unsettled that second of adjustable resistor RD1 is fixedly connected end.
As shown in Figure 6, above-mentioned RTC and EEPROM module comprise that model is the clock chip U5 of DS1388, crystal oscillator Y3, electrochemical capacitor C51, and resistance R 51 and R52; Wherein: model is the 1st pin of the clock chip U5 of DS1388, is connected with the 2nd pin through crystal oscillator Y3; The 3rd pin is connected with the positive pole of electrochemical capacitor C51, and the 4th pin is connected and ground connection GND with the negative pole of electrochemical capacitor C51; The 5th pin is the DS_SDA end and after resistance R 51, connects the OUT3.3V end that the 6th pin is the DS_SCL end and after resistance R 52, connects the OUT3.3V end that the 8th pin connects the OUT3.3V end.
The hot sharing device of stream warm therapy is used the hand-held debugger in the household based heat metering system of the foregoing description, is applicable to the vertical single-pipe system of building and the branch family heat metering of vertical single tube great-leap-forward heating system; The heat energy that this metering method adopts the hot methodology of flow temperature that heat supply zone (Lou Dong) heat summary table is measured is shared to each user; In the ingredient of stream warm therapy hot sharing device, the communication realization is adopted in the data communication of Temperature sampler and data collector, Temperature sampler and the data collector machine interactive interface of all having no talent; The hand-held debugger that the hot sharing device of this stream warm therapy is used; Can realize Installation and Debugging to Temperature sampler and temperature gatherer; The hand-held debugger of using through the hot sharing device of this stream warm therapy, can the probe temperature collector and the work running status of data collector with related parameter is arranged.
When the hot sharing device of stream warm therapy communicates with hand-held debugger and Temperature sampler in this household based heat metering system, can obtain the temperature parameter that Temperature sampler is gathered, thereby judge the correctness of its duty; When hand-held debugger of using when the hot sharing device of this stream warm therapy and data collector communicate, can obtain the temperature parameter of whole nodes that data collector collects.
The hot sharing device of stream warm therapy is used the hand-held debugger in the household based heat metering system of the foregoing description; Can select model for use is that the wireless singlechip U1 4 of CC1110F32 (or the model identical with the temperature gatherer with Temperature sampler is CC1100) processes for core parts, main realization and Temperature sampler and data collector realization RFDC; Through the duty of display parameter discriminatory analysis Temperature sampler and data collector, the on-the-spot Installation and Debugging of convenient construction personnel.
The hot sharing device of stream warm therapy is used the hand-held debugger in the household based heat metering system of the foregoing description, has following characteristics:
Can employing and the wireless singlechip U1 4 of Temperature sampler and temperature gatherer same model (CC1100) realize, good with the communication compatibility of Temperature sampler and data collector;
⑵ be provided with different address and frequency range through key-press module 3, can realize different temperature collector and data collector data communication, judges the correctness of debugger object work through LCD display module 5 display parameter;
⑶ adopt power module 6 power supplies, makes things convenient for the outdoor construction debugging to use;
⑷ can adopt Chinese to show, the convenient construction personnel use;
⑸ can be provided with four buttons, manipulates simple.
In sum; The hot sharing device of stream warm therapy is used the hand-held debugger in the household based heat metering system of each embodiment of the utility model; Owing to comprise power module, wireless singlechip U1, key-press module, display unit, RTC and EEPROM module and the radio communication unit that is used for and flows the hot sharing device wireless connections of warm therapy; Wherein: key-press module, wireless singlechip U1 and display unit connect successively; Power module, RTC and EEPROM module and radio communication unit all are connected with wireless singlechip U1; Can communicate with the hot sharing device of stream warm therapy, obtain the temperature parameter of Temperature sampler collection or the temperature parameter of whole nodes that data collector is collected, thereby judge the correctness of its duty; Can't testing state and the big defective of Installation and Debugging difficulty thereby can overcome in the prior art, with realize can the testing state, Installation and Debugging are convenient, communication compatibility is good and the simple advantage of mode of operation.
What should explain at last is: the above is merely the preferred embodiment of the utility model; Be not limited to the utility model; Although the utility model has been carried out detailed explanation with reference to previous embodiment; For a person skilled in the art, it still can be made amendment to the technical scheme that aforementioned each embodiment put down in writing, and perhaps part technical characterictic wherein is equal to replacement.All within the spirit and principle of the utility model, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection domain of the utility model.

Claims (9)

1. the hot sharing device of stream warm therapy is used the hand-held debugger in the household based heat metering system; It is characterized in that; Comprise power module, wireless singlechip U1, key-press module, display unit, RTC and EEPROM module and the radio communication unit that is used for and flows the hot sharing device wireless connections of warm therapy, wherein:
Said key-press module, wireless singlechip U1 and display unit connect successively; Said power module, RTC and EEPROM module and radio communication unit all are connected with wireless singlechip U1.
2. the hot sharing device of stream warm therapy is used the hand-held debugger in the household based heat metering according to claim 1 system; It is characterized in that; Said radio communication unit comprises radio receiving transmitting module and the antenna E1 that connects successively, and said wireless singlechip U1 is connected with radio receiving transmitting module.
3. the hot sharing device of stream warm therapy is used the hand-held debugger in the household based heat metering according to claim 1 system; It is characterized in that; Said display unit comprises the LCD display module, and is used for the LCD display module interface that said LCD display module is connected with wireless singlechip U1.
4. the hot sharing device of stream warm therapy is used the hand-held debugger in the household based heat metering according to claim 1 system, it is characterized in that the model of said wireless singlechip U1 is CC1110F32.
5. use the hand-held debugger according to the hot sharing device of stream warm therapy in each described household based heat metering system among the claim 1-4; It is characterized in that; Said power module comprises direct supply VCC, 2 pin socket J4, waved switch JP1; Model is the low-dropout regulator U2 of MC33275ST-3.3T3, and electrochemical capacitor C21 and C22; Wherein:
Said model is that the 1st pin of the low-dropout regulator U2 of MC33275ST-3.3T3 is connected with the positive pole of direct supply VCC and electrochemical capacitor C21; The 2nd pin ground connection GND also is connected with the negative pole of electrochemical capacitor C21; The 3rd pin is OUT3.3V_P end and is connected with the positive pole of electrochemical capacitor C22, and the 4th pin ground connection GND also is connected with the negative pole of electrochemical capacitor C22;
The 1st pin ground connection GND of said 2 pin socket J4, the 2nd pin meets direct supply VCC; The 1st pin of waved switch JP1 is the OUT3.3V_P end, and the 2nd pin is the OUT3.3V end, and the 3rd pin is the OUT3.3V_D end.
6. the hot sharing device of stream warm therapy is used the hand-held debugger in the household based heat metering according to claim 5 system; It is characterized in that; Said radio receiving transmitting module comprises capacitor C 101, C102, C103, C104, C105, C106, C107, C121, C122, C123, C124, C125, C131, C132, C133, C134, C135 and C141; Inductance L 01, L131, L132, L133 and L141, resistance R 16, R17 and R121, crystal oscillator Y1 and Y2; Light emitting diode D2, and the connector J1 of 5 * 2 joints; Wherein:
Said model is that the P0_0 mouth of the wireless singlechip U1 of CC1110F32 is the DS_SCL end, and the P0_1 mouth is the DS_SDA end, and the P0_4 mouth is the KEY1 end, and the P0_5 mouth is the KEY2 end; The P0_6 mouth is the KEY3 end, and the P0_7 mouth is the KEY4 end, and the P1_1 mouth is the P1.0 end and after resistance R 16, is connected with the negative electrode of light emitting diode D2; The P1_2 mouth is the DISP_SID end, and the P1_3 mouth is the DISP_SCLK end, and the P1_4 mouth is the CSN end; The P1_5 mouth is the SCK end, and the P1_6 mouth is the MOSI end, and the P1_7 mouth is the MISO end; The P2_0 mouth is the KEY5 end, and the P2_1 mouth is the DEBUG_D end, and the P2_2 mouth is the DEBUG_C end; The RF_P mouth connects signal ground successively behind inductance L 131 and C134, and after capacitor C 131, inductance L 132 and capacitor C 132, connects signal ground successively; The RF_N mouth connects signal ground after capacitor C 141, and behind electric capacity L141, is connected with the common port of capacitor C 131 and inductance L 132; The RESET_N mouth is the RESET end and after resistance R 17, connects the OUT3.3V end; The RBIAS mouth is ground connection GND after resistance R 121, and the DCOUPL mouth is ground connection GND after capacitor C 125; The XSOC_Q1 mouth is connected and ground connection GND after capacitor C 121 with first link of crystal oscillator Y1; The XSOC_Q2 mouth is connected and ground connection GND after capacitor C 122 with second link of crystal oscillator Y1; The P2_3 mouth be connected with first link of crystal oscillator Y2 and after capacitor C 124 ground connection GND, the P2_4 mouth is connected and ground connection GND after capacitor C 123 with second link of crystal oscillator Y2; The AVDD mouth is ground connection GND after capacitor C 107; Ground connection GND after capacitor C 106, ground connection GND after capacitor C 105, ground connection GND after capacitor C 102; Ground connection GND after capacitor C 103; Ground connection GND after capacitor C 104, and successively through inductance L 101 and capacitor C 101 back ground connection GND, inductance L 101 is that OUT3.3V holds with the common port of capacitor C 101;
The 1st pin ground connection GND of the connector J1 of said 5 * 2 joints, the 2nd pin are the OUT3.3V_D end, and the 3rd pin is the DEBUG_C end; The 4th pin is the DEBUT_D end; The 5th pin is the CSN end, and the 6th pin is the SCK end, and the 7th pin is the RESET end; The 8th pin is the MOSI end, and the 9th pin is the MISO end;
The anode of said light emitting diode D2 is the OUT3.3V end; First link of inductance L 133 is connected with the common port of inductance L 132 with capacitor C 132, and second link is through connecing signal ground and after capacitor C 135, meeting antenna E1 after the capacitor C 133.
7. the hot sharing device of stream warm therapy is used the hand-held debugger in the household based heat metering according to claim 6 system, it is characterized in that said key-press module comprises button PK1, and resistance R 11, R12, R13, R14 and R15; Wherein:
The 1st pin ground connection GND of said button PK1; The 2nd pin is the KEY1 end and after resistance R 11, connects the OUT3.3V end; The 3rd pin is the KEY2 end and after resistance R 12, connects the OUT3.3V end; The 4th pin is the KEY3 end and after resistance R 13, connects the OUT3.3V end that the 5th pin is the KEY4 end and after resistance R 14, connects the OUT3.3V end that the 6th pin is the KEY5 end and after resistance R 15, connects the OUT3.3V end.
8. the hot sharing device of stream warm therapy is used the hand-held debugger in the household based heat metering according to claim 7 system, it is characterized in that said LCD display module interface comprises the connector J3 and the adjustable resistor RD1 of 10 joints; The 1st pin ground connection GND of the connector J3 of said 10 joints; The 2nd pin and the 4th pin all connect the OUT3.3V end, and the 3rd pin is connected with the adjustable side of adjustable resistor RD1, and the 5th pin connects the DISP_SID end; The 6th pin connects the DISP_SCLK end; The 8th pin is connected with first stiff end of adjustable resistor RD1, and the 9th pin is connected with the positive input terminal LED+ of LCD display module and connects the OUT3.3V end, and the 10th pin is connected and ground connection GND with the negative input end LED-of LCD display module; It is unsettled that second of adjustable resistor RD1 is fixedly connected end.
9. the hot sharing device of stream warm therapy is used the hand-held debugger in the household based heat metering according to claim 8 system; It is characterized in that said RTC and EEPROM module comprise that model is the clock chip U5 of DS1388, crystal oscillator Y3; Electrochemical capacitor C51, and resistance R 51 and R52; Wherein:
Said model is the 1st pin of the clock chip U5 of DS1388, is connected with the 2nd pin through crystal oscillator Y3; The 3rd pin is connected with the positive pole of electrochemical capacitor C51, and the 4th pin is connected and ground connection GND with the negative pole of electrochemical capacitor C51; The 5th pin is the DS_SDA end and after resistance R 51, connects the OUT3.3V end that the 6th pin is the DS_SCL end and after resistance R 52, connects the OUT3.3V end that the 8th pin connects the OUT3.3V end.
CN2011202995586U 2011-08-17 2011-08-17 Handheld type debugger for flow-temperature process heat distributing device in heating household-based metering system Withdrawn - After Issue CN202195901U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102384800A (en) * 2011-08-17 2012-03-21 兰州海源科技有限责任公司 Handheld debugger for flux temperature method heat sharing device in heating supply household metering system
CN103323047A (en) * 2013-05-27 2013-09-25 江苏三恒科技股份有限公司 Wireless debugging instrument for mine

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102384800A (en) * 2011-08-17 2012-03-21 兰州海源科技有限责任公司 Handheld debugger for flux temperature method heat sharing device in heating supply household metering system
CN102384800B (en) * 2011-08-17 2014-06-04 兰州海源科技有限责任公司 Handheld debugger for flux temperature method heat sharing device in heating supply household metering system
CN103323047A (en) * 2013-05-27 2013-09-25 江苏三恒科技股份有限公司 Wireless debugging instrument for mine

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