CN102708663A - Wireless setting method and wireless setting device of parameters of elevator hall-call controller - Google Patents
Wireless setting method and wireless setting device of parameters of elevator hall-call controller Download PDFInfo
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- CN102708663A CN102708663A CN2012101512277A CN201210151227A CN102708663A CN 102708663 A CN102708663 A CN 102708663A CN 2012101512277 A CN2012101512277 A CN 2012101512277A CN 201210151227 A CN201210151227 A CN 201210151227A CN 102708663 A CN102708663 A CN 102708663A
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Abstract
The invention discloses a wireless setting method of parameters of an elevator hall-call controller and relates to a circuit parameter setting method. The wireless setting method comprises the steps of: reading in setting data at a signal setting end by a first read-write controller and converting the setting data into communication address landing code data; converting the communication address landing code data into data in a data frame structure of a standard wireless communication protocol and carrying out data packaging; transmitting the packaged data by a first wireless communication antenna; storing a wireless signal received by a second wireless communication antenna in a storage at a signal receiving end; reading the wireless signal by a second read-write controller and converting the wireless signal into a machine code corresponding to a communication address landing code; and forming a control command and control data and transmitting the control command and the control data to the elevator hall-call controller. According to the wireless setting method and wireless setting device provided by the invention, installing and commissioning test of an elevator can be simplified; the installing and commissioning potential hazards are reduced; and the accuracy of setting the data is improved. The invention also discloses a device for implementing the method.
Description
Technical field
The present invention relates to a kind of circuit parameter establishing method and device, particularly relate to the parameter setting method and the device of hall controller.
Background technology
In the elevator installation process, the hall controller of each floor all need be set address stop code.And popular outgoing call controller address stop code setting method has the method for directly utilizing short-circuit block short circuit outgoing call control panel at present; The method of utilizing toggle switch that the outgoing call controller is provided with is arranged; Or certain pin short circuit of outgoing call control panel is provided with the address through the last knob down on the outgoing call controller again, but these establishing methods all need could use under the situation of elevator device energising.So without exception, these methods to set up are all very loaded down with trivial details, have only and dismantled the hall controller panel, just can touch outgoing call controller line plate, reduced the elevator installation effectiveness widely.Particularly computing and the conversion between the machine code of number of floor levels and address stop code, for the conventional lift installer, difficulty is too big, also can have potential safety hazard under the energising situation simultaneously.
Summary of the invention
The objective of the invention is to be to overcome deficiency of the prior art, a kind of method that can realize hall control panel parameter wireless setting is provided.Be implemented in and need not dismantle under the hall controller panel situation, under the charged or uncharged state of hall controller, accomplish setting outgoing call control panel address stop code.
Another object of the present invention provides a kind of wireless setting device of realizing said method, realizes accurate, the convenient setting of outgoing call controller address stop code.
The wireless setting method of hall controller parameter of the present invention, comprising following steps:
Step 01 at the signal sets end, will be provided with data through first read-write controller and read in, and it is address stop code data that data-switching will be set;
Step 02 converts address stop code data into the data in the data frame structure of standard wireless communication agreement, and carries out data encapsulation according to the corresponding communication agreement;
Step 03 utilizes first radio antenna that the data conversion of encapsulation is wireless signal transmission;
Step 04, at signal receiving end, the wireless signal with second radio antenna receives is stored in the storer;
Step 05 reads wireless signal through the second reading writing controller from storer, and converts wireless signal into address stop code corresponding machine code;
Step 06 forms steering order and control data through the second reading writing controller with machine code, transmits to the hall controller;
Hall controller to different floors repeats above-mentioned steps.
Also comprise the steps: after the said step 06
Step 07, second reading writing controller receive the feedback signal of hall controller, and convert feedback signal into status data and send back the signal sets end, and successfully whether the setting that first read-write controller is judged the hall controller parameter according to status data.
What the wireless transmission method of said signal sets end and signal receiving end adopted based on wireless radiofrequency technology, frequency modulation wireless technology, infrared radio technology, blue tooth wireless technology, microwave technology, shortwave technology, middle wave technology, long wave is technological, very low frequency (VLF) is technological, low-frequency technology, intermediate frequency technology, high frequency technique, very high frequency(VHF) are technological is a kind of.
Realize the wireless setting device of described wireless setting method; Wherein: comprise a signal sets end and at least one signal receiving end; The signal sets end comprises first read-write controller, protocol converter and first radio antenna, and signal receiving end comprises second reading writing controller, storer and second radio antenna;
First read-write controller, be used for the input data are set or instruction transformation is an address stop code data;
Protocol converter is used for data based different wireless communication protocol encapsulation;
First radio antenna, second radio antenna, being used for data-switching is that wireless signal sends or accept wireless signal;
Storer is used to store wireless signal and feedback states data;
The second reading writing controller is used for converting wireless signal into address stop code corresponding machine code, forms steering order and control data and transmits to the hall controller.
A kind of in the communication antenna that said first radio antenna, second radio antenna adopt based on wireless radiofrequency technology, frequency modulation wireless technology, infrared radio technology, blue tooth wireless technology, microwave technology, shortwave technology, middle wave technology, long wave is technological, very low frequency (VLF) is technological, low-frequency technology, intermediate frequency technology, high frequency technique, very high frequency(VHF) are technological.
Said signal sets end; 29 pins of first read-write controller, 30 pins, 33 pins, 34 pins, 25 pins, 47 pins, 19 pins of 46 pin connection protocol converters, 18 pins, 17 pins, 16 pins, 15 pins, 14 pins, 12 pins; 6 pins of first read-write controller, 7 pins, 8 pins, 32 pins, 13 pin connection+3V working powers; 5 pins of first read-write controller, 31 pins, 4 pins, 14 pin ground connection; Earth point and+C17 electric capacity, C18 electric capacity, C19 electric capacity, C20 electric capacity are connected in parallel between the output terminal of 3V working power; Be connected the Y2 crystal oscillator between 3 pins of first read-write controller and 2 pins, Y2 crystal oscillator two ends are respectively through C31 electric capacity, C32 capacity earth;
28 pins of protocol converter, 27 pins, 26 pins, 25 pins, 24 pins, 23 pins, 22 pin ground connection; Ground connection behind the 20 pins series connection R17 resistance of protocol converter; Connect+the 3V working power behind the 19 pins series connection R14 resistance of protocol converter, connect+the 3V working power behind the 21 pins series connection R15 resistance of protocol converter;
Be connected the Y1 crystal oscillator between 29 pins of protocol converter and 30 pins; Y1 crystal oscillator two ends are respectively through C15 electric capacity, C16 capacity earth; 4 pins of protocol converter, 3 pins, 7 pins, 8 pins, 10 pins, 11 pin ground connection connect C12 electric capacity between 9 pins of protocol converter and 11 pins; Connect first radio antenna behind the 5 pins series connection R1 resistance of protocol converter; Connect first radio antenna behind the 1 pin series connection C1 electric capacity of protocol converter; Connect first radio antenna behind the 2 pins series connection C2 electric capacity of protocol converter; Connect first radio antenna behind 6 pins of the protocol converter series connection R9 resistance, be connected parallelly connected C3 electric capacity and C4 electric capacity between 5 pins of protocol converter, 1 pin and 2 pins, 6 pins;
13 pin connection+3V working powers of protocol converter; 13 pins of protocol converter through C5 electric capacity and the C6 electric capacity of parallel connection after ground connection; Ground connection behind the 13 pins series connection L1 telefault of protocol converter, the C13 electric capacity; C14 electric capacity parallel connection C13 electric capacity, the two ends of C14 electric capacity are 32 pins, 31 pins of connection protocol converter respectively.
Said signal receiving end, 1 pin of storer, 4 pin ground connection, 8 pin connection+5V working powers, 7 pin ground connection, 8 pins are connected C67 electric capacity with 7 pins; Connection+5V working power behind the 5 pins series connection R23 resistance of storer, connection+5V working power behind the 6 pins series connection R22 resistance of storer, 2 pins, 3 pins of storer connect second radio antenna; 6 pins of storer connect 39 pins of second reading writing controller, and 5 pins of storer connect 38 pins of second reading writing controller;
Ground connection behind the 36 pins series connection C68 electric capacity of second reading writing controller; Ground connection behind the 6 pins series connection C69 electric capacity of second reading writing controller; Ground connection behind the 25 pins series connection C66 electric capacity of second reading writing controller, ground connection behind the 24 pins series connection C65 electric capacity of second reading writing controller, ground connection behind the 23 pins series connection C64 electric capacity of second reading writing controller; Ground connection behind the 12 pins series connection C63 electric capacity of second reading writing controller, ground connection behind the 11 pins series connection C62 electric capacity of second reading writing controller;
Connect the Y3 crystal oscillator between 2 pins of second reading writing controller and 3 pins, connect R21 resistance between 2 pins of second reading writing controller and 3 pins, the two ends of Y3 crystal oscillator are respectively through C60 electric capacity, C61 capacity earth;
14 pins of second reading writing controller, 4 pins, 31 pins, 5 pin ground connection; 13 pins of second reading writing controller, 32 pins, 8 pins, 7 pin connection+5V working powers; Earth point and+be connected in parallel between 5V working power output terminal C53 electric capacity, C54 electric capacity, C55 electric capacity, C56 electric capacity, the second reading writing controller through the TP3 node to the hall controller transmission data.
Wireless setting method of the present invention can be simplified the installation and lineup time of elevator, the potential danger of reduction installation and lineup, improves the accuracy of data setting.
The positive useful result of use that wireless setting device of the present invention is had:
Utilize frequency read/write under the situation that need not to set up the contact of machinery or optics, just can accomplish parameter setting to the hall controller, convenient, fast, reliable, efficient is high;
Utilize radio-frequency technique; Under the charged and not charged two states, can both accomplish parameter setting at the hall controller, compare prior art the hall controller; Limitation is littler, even under power down mode, also can accomplish the parameter setting to the hall controller;
For amateur installer, can reduce the operation requirement, the scope of application is wider;
Because need not to open under the outgoing call maneuver box situation, can accomplish parameter setting to the hall controller, can realize installing and the separating of the work of debugging, raising Installation and Debugging efficient is more than 50%;
Need open the outgoing call maneuver box with existing, and the situation of charged debugging compares, reduce greatly because the probability of burning plank that artificial debugging error causes reduces commissioning staff's psychological pressure greatly.Below in conjunction with accompanying drawing embodiments of the invention are described further.
Description of drawings
Fig. 1 is the schematic flow sheet that is provided with of hall controller parameter wireless setting method of the present invention;
Fig. 2 is the structural representation that is used for the wireless setting device of wireless setting method of the present invention;
Fig. 3 is the structural representation one of embodiment 1 that is used for the wireless setting device of wireless setting method of the present invention;
Fig. 4 is the structural representation two of embodiment 1 that is used for the wireless setting device of wireless setting method of the present invention;
Fig. 5 is the structural representation three of embodiment 1 that is used for the wireless setting device of wireless setting method of the present invention.
Embodiment
As shown in Figure 1, at a floor, hall controller parameter wireless setting method of the present invention that step is set is following:
Step 01 at the signal sets end, will be provided with data through first read-write controller and read in, and it is address stop code data that data-switching will be set;
Step 02 converts address stop code data into the data in the data frame structure of standard wireless communication agreement, and carries out data encapsulation according to the corresponding communication agreement;
Step 03 utilizes first radio antenna that the data conversion of encapsulation is wireless signal transmission;
Step 04, at signal receiving end, the wireless signal with second radio antenna receives is stored in the storer;
Step 05 reads wireless signal through the second reading writing controller from storer, and converts wireless signal into address stop code corresponding machine code;
Step 06 forms steering order and control data through the second reading writing controller with machine code, transmits to the hall controller;
The hall controller receives corresponding data, accomplishes computing and conversion between number of floor levels and the address stop code machine code.Accurate for what guarantee to set, also comprise the steps:
Step 07, second reading writing controller receive the feedback signal of hall controller, and convert feedback signal into status data and send back the signal sets end, and successfully whether the setting that first read-write controller is judged the hall controller parameter according to status data.
Get into next floor, repeat above-mentioned steps.
As shown in Figure 2; The wireless setting device of realizing wireless setting method of the present invention comprises a signal sets end and at least one signal receiving end; The signal sets end comprises the first read-write controller U1, protocol converter U2 and the first radio antenna ANT1, and signal receiving end comprises second reading writing controller U3, storer U11 and the second radio antenna ANT2;
The first read-write controller U1, be used for the input data are set or instruction transformation is an address stop code data;
Protocol converter U2 is used for data based different wireless communication protocol encapsulation;
The first radio antenna ANT1, the second radio antenna ANT2, being used for data-switching is that wireless signal sends or accept wireless signal;
Storer U11 is used to store wireless signal and feedback states data;
Second reading writing controller U3 is used for converting wireless signal into address stop code corresponding machine code, forms steering order and control data and transmits to the hall controller.
The hall controller receives instruction and data and accomplishes the corresponding data setting, and timely feedback states signal.
Through wireless signal transmission techniques, frequency read/write just can be accomplished the parameter setting to the hall controller under the situation that need not to set up the contact of machinery or optics.
At signal receiving end, utilize second reading writing controller U3 from storer, to read signal, accomplish data extract and can omit protocol converter, effectively reduce the manufacturing cost of each signal receiving end.
Utilize frequency read/write chip STM8S208C8 as read-write controller; Utilize the CR95HF chip as communication protocols converter; The eeprom memory M24LR64-R that utilizes double nip is as storer; M24LR64-R supports the contactless ISO15693 radio frequency interface of standard, can use radio-frequency technique under the charged and not charged two states, can both accomplish the parameter setting to the hall controller at the hall controller.
Like Fig. 3 and shown in Figure 4; The embodiment 1 that is used for the wireless setting device of wireless setting method of the present invention; 19 pins, 18 pins, 17 pins, 16 pins, 15 pins, 14 pins, 12 pins of 29 pins of the first read-write controller U1,30 pins, 33 pins, 34 pins, 25 pins, 47 pins, 46 pin connection protocol converter U2; 6 pins of the first read-write controller U1,7 pins, 8 pins, 32 pins, 13 pin connection+3V working powers; 5 pins of the first read-write controller U1,31 pins, 4 pins, 14 pin ground connection; Earth point and+be connected in parallel between the output terminal of 3V working power C17 electric capacity, C18 electric capacity, C19 electric capacity, C20 electric capacity, be connected the Y2 crystal oscillator between 3 pins of the first read-write controller U1 and 2 pins, Y2 crystal oscillator two ends are respectively through C31 electric capacity, C32 capacity earth;
28 pins of protocol converter U2,27 pins, 26 pins, 25 pins, 24 pins, 23 pins, 22 pin ground connection; Ground connection behind the 20 pins series connection R17 resistance of protocol converter U2; Connect+the 3V working power behind the 19 pins series connection R14 resistance of protocol converter U2, connect+the 3V working power behind the 21 pins series connection R15 resistance of protocol converter U2;
Be connected the Y1 crystal oscillator between 29 pins of protocol converter U2 and 30 pins; Y1 crystal oscillator two ends are respectively through C15 electric capacity, C16 capacity earth; 4 pins of protocol converter U2,3 pins, 7 pins, 8 pins, 10 pins, 11 pin ground connection connect C12 electric capacity between 9 pins of protocol converter U2 and 11 pins; Connect the first radio antenna ANT1 behind the 5 pins series connection R1 resistance of protocol converter U2; Connect the first radio antenna ANT1 behind the 1 pin series connection C1 electric capacity of protocol converter U2; Connect the first radio antenna ANT1 behind the 2 pins series connection C2 electric capacity of protocol converter U2; Connect the first radio antenna ANT1 behind 6 pins of the protocol converter U2 series connection R9 resistance, be connected parallelly connected C3 electric capacity and C4 electric capacity between 5 pins of protocol converter U2,1 pin and 2 pins, 6 pins;
The 13 pin connection+3V working powers of protocol converter U2; 13 pins of protocol converter U2 through C5 electric capacity and the C6 electric capacity of parallel connection after ground connection; Ground connection behind the 13 pins series connection L1 telefault of protocol converter U2, the C13 electric capacity; C14 electric capacity parallel connection C13 electric capacity, the two ends of C14 electric capacity are 32 pins, 31 pins of connection protocol converter U2 respectively.
As shown in Figure 5, be used for the embodiment 1 of the wireless setting device of wireless setting method of the present invention, 1 pin of storer U11,4 pin ground connection, 8 pin connection+5V working powers, 7 pin ground connection, 8 pins are connected C67 electric capacity with 7 pins; Connection+5V working power behind the 5 pins series connection R23 resistance of storer U11, connection+5V working power behind the 6 pins series connection R22 resistance of storer U11,2 pins of storer U11,3 pins connect the second radio antenna ANT2; 6 pins of storer U11 connect 39 pins of second reading writing controller U3, and 5 pins of storer U11 connect 38 pins of second reading writing controller U3;
Ground connection behind the 36 pins series connection C68 electric capacity of second reading writing controller U3; Ground connection behind the 6 pins series connection C69 electric capacity of second reading writing controller U3; Ground connection behind the 25 pins series connection C66 electric capacity of second reading writing controller U3, ground connection behind the 24 pins series connection C65 electric capacity of second reading writing controller U3, ground connection behind the 23 pins series connection C64 electric capacity of second reading writing controller U3; Ground connection behind the 12 pins series connection C63 electric capacity of second reading writing controller U3, ground connection behind the 11 pins series connection C62 electric capacity of second reading writing controller U3;
Connect the Y3 crystal oscillator between 2 pins of second reading writing controller U3 and 3 pins, connect R21 resistance between 2 pins of second reading writing controller U3 and 3 pins, the two ends of Y3 crystal oscillator are respectively through C60 electric capacity, C61 capacity earth;
14 pins of second reading writing controller U3,4 pins, 31 pins, 5 pin ground connection; 13 pins of second reading writing controller U3,32 pins, 8 pins, 7 pin connection+5V working powers; Earth point and+be connected in parallel between 5V working power output terminal C53 electric capacity, C54 electric capacity, C55 electric capacity, C56 electric capacity, second reading writing controller U3 through the TP3 node to the hall controller transmission data.
In other embodiments; Transmission of wireless signals mode of the present invention is not limited to sending and receiving apparatus and the communication antenna that adopts wireless radio-frequency; Can also use based on frequency modulation wireless technology, infrared radio technology, the sending and receiving apparatus of blue tooth wireless technology and supporting communication antenna; Can also use based on microwave, shortwave, medium wave, long wave, and the sending and receiving apparatus of wireless communication technologys such as very low frequency (VLF), low frequency, intermediate frequency, high frequency, very high frequency(VHF) and communication antenna are accomplished transmission of wireless signals.
Above-described embodiment describes preferred implementation of the present invention; Be not that scope of the present invention is limited; Design under the prerequisite of spirit not breaking away from the present invention; Various distortion and improvement that those of ordinary skills make technical scheme of the present invention all should fall in the definite protection domain of claims of the present invention.
Claims (7)
1. the wireless setting method of a hall controller parameter is characterized in that: may further comprise the steps:
Step 01 at the signal sets end, will be provided with data through first read-write controller and read in, and it is address stop code data that data-switching will be set;
Step 02 converts address stop code data into the data in the data frame structure of standard wireless communication agreement, and carries out data encapsulation according to the corresponding communication agreement;
Step 03 utilizes first radio antenna that the data conversion of encapsulation is wireless signal transmission;
Step 04, at signal receiving end, the wireless signal with second radio antenna receives is stored in the storer;
Step 05 reads wireless signal through the second reading writing controller from storer, and converts wireless signal into address stop code corresponding machine code;
Step 06 forms steering order and control data through the second reading writing controller with machine code, transmits to the hall controller;
Hall controller to different floors repeats above-mentioned steps.
2. the wireless setting method of hall controller parameter according to claim 1 is characterized in that: also comprise the steps: after the said step 06
Step 07, second reading writing controller receive the feedback signal of hall controller, and convert feedback signal into status data and send back the signal sets end, and successfully whether the setting that first read-write controller is judged the hall controller parameter according to status data.
3. the wireless setting method of hall controller parameter according to claim 2 is characterized in that: what the wireless transmission method of said signal sets end and signal receiving end adopted based on wireless radiofrequency technology, frequency modulation wireless technology, infrared radio technology, blue tooth wireless technology, microwave technology, shortwave technology, middle wave technology, long wave is technological, very low frequency (VLF) is technological, low-frequency technology, intermediate frequency technology, high frequency technique, very high frequency(VHF) are technological is a kind of.
4. realize the wireless setting device of claim 1 or 3 arbitrary described wireless setting methods; It is characterized in that: comprise a signal sets end and at least one signal receiving end; The signal sets end comprises first read-write controller (U1), protocol converter (U2) and first radio antenna (ANT1), and signal receiving end comprises second reading writing controller (U3), storer (U11) and second radio antenna (ANT2);
First read-write controller (U1), be used for the input data are set or instruction transformation is an address stop code data;
Protocol converter (U2) is used for data based different wireless communication protocol encapsulation;
First radio antenna (ANT1), second radio antenna (ANT2), being used for data-switching is that wireless signal sends or accept wireless signal;
Storer (U11) is used to store wireless signal and feedback states data;
Second reading writing controller (U3) is used for converting wireless signal into address stop code corresponding machine code, forms steering order and control data and transmits to the hall controller.
5. wireless setting device according to claim 4 is characterized in that: a kind of in the communication antenna that said first radio antenna (ANT1), second radio antenna (ANT2) adopt based on wireless radiofrequency technology, frequency modulation wireless technology, infrared radio technology, blue tooth wireless technology, microwave technology, shortwave technology, middle wave technology, long wave is technological, very low frequency (VLF) is technological, low-frequency technology, intermediate frequency technology, high frequency technique, very high frequency(VHF) are technological.
6. wireless setting device according to claim 5; It is characterized in that: said signal sets end; 29 pins of first read-write controller (U1), 30 pins, 33 pins, 34 pins, 25 pins, 47 pins, 19 pins of 46 pin connection protocol converters (U2), 18 pins, 17 pins, 16 pins, 15 pins, 14 pins, 12 pins; 6 pins of first read-write controller (U1), 7 pins, 8 pins, 32 pins, 13 pin connection+3V working powers; 5 pins of first read-write controller (U1), 31 pins, 4 pins, 14 pin ground connection; Earth point and+C17 electric capacity, C18 electric capacity, C19 electric capacity, C20 electric capacity are connected in parallel between the output terminal of 3V working power; Be connected the Y2 crystal oscillator between 3 pins of first read-write controller (U1) and 2 pins, Y2 crystal oscillator two ends are respectively through C31 electric capacity, C32 capacity earth;
28 pins of protocol converter (U2), 27 pins, 26 pins, 25 pins, 24 pins, 23 pins, 22 pin ground connection; Ground connection behind the 20 pins series connection R17 resistance of protocol converter (U2); Connect+the 3V working power behind the 19 pins series connection R14 resistance of protocol converter (U2), connect+the 3V working power behind the 21 pins series connection R15 resistance of protocol converter (U2);
Be connected the Y1 crystal oscillator between 29 pins of protocol converter (U2) and 30 pins; Y1 crystal oscillator two ends are respectively through C15 electric capacity, C16 capacity earth; 4 pins of protocol converter (U2), 3 pins, 7 pins, 8 pins, 10 pins, 11 pin ground connection connect C12 electric capacity between 9 pins of protocol converter (U2) and 11 pins; Connect first radio antenna (ANT1) behind the 5 pins series connection R1 resistance of protocol converter (U2); Connect first radio antenna (ANT1) behind the 1 pin series connection C1 electric capacity of protocol converter (U2); Connect first radio antenna (ANT1) behind the 2 pins series connection C2 electric capacity of protocol converter (U2); Connect first radio antenna (ANT1) behind 6 pins of protocol converter (U2) the series connection R9 resistance, be connected parallelly connected C3 electric capacity and C4 electric capacity between 5 pins of protocol converter (U2), 1 pin and 2 pins, 6 pins;
13 pin connection+3V working powers of protocol converter (U2); 13 pins of protocol converter (U2) through C5 electric capacity and the C6 electric capacity of parallel connection after ground connection; Ground connection behind the 13 pins series connection L1 telefault of protocol converter (U2), the C13 electric capacity; C14 electric capacity parallel connection C13 electric capacity, the two ends of C14 electric capacity are 32 pins, 31 pins of connection protocol converter (U2) respectively.
7. wireless setting device according to claim 6 is characterized in that: said signal receiving end, and 1 pin of storer (U11), 4 pin ground connection, 8 pin connection+5V working powers, 7 pin ground connection, 8 pins are connected C67 electric capacity with 7 pins; Connection+5V working power behind the 5 pins series connection R23 resistance of storer (U11), connection+5V working power behind the 6 pins series connection R22 resistance of storer (U11), 2 pins of storer (U11), 3 pins connect second radio antenna (ANT2); 6 pins of storer (U11) connect 39 pins of second reading writing controller (U3), and 5 pins of storer (U11) connect 38 pins of second reading writing controller (U3);
Ground connection behind the 36 pins series connection C68 electric capacity of second reading writing controller (U3); Ground connection behind the 6 pins series connection C69 electric capacity of second reading writing controller (U3); Ground connection behind the 25 pins series connection C66 electric capacity of second reading writing controller (U3); Ground connection behind the 24 pins series connection C65 electric capacity of second reading writing controller (U3); Ground connection behind the 23 pins series connection C64 electric capacity of second reading writing controller (U3), ground connection behind the 12 pins series connection C63 electric capacity of second reading writing controller (U3), ground connection behind the 11 pins series connection C62 electric capacity of second reading writing controller (U3);
Connect the Y3 crystal oscillator between 2 pins of second reading writing controller (U3) and 3 pins, connect R21 resistance between 2 pins of second reading writing controller (U3) and 3 pins, the two ends of Y3 crystal oscillator are respectively through C60 electric capacity, C61 capacity earth;
14 pins of second reading writing controller (U3), 4 pins, 31 pins, 5 pin ground connection; 13 pins of second reading writing controller (U3), 32 pins, 8 pins, 7 pin connection+5V working powers; Earth point and+be connected in parallel between 5V working power output terminal C53 electric capacity, C54 electric capacity, C55 electric capacity, C56 electric capacity, second reading writing controller (U3) through the TP3 node to the hall controller transmission data.
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| CN103991760A (en) * | 2014-05-22 | 2014-08-20 | 广州日滨科技发展有限公司 | Elevator floor ID number distribution method and elevator hall exterior calling system |
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| CN101021971A (en) * | 2006-12-13 | 2007-08-22 | 上海新时达电气有限公司 | Elevator debugging instrument utilizing bluetooth communication |
| CN101087277A (en) * | 2007-06-14 | 2007-12-12 | 广东中大讯通软件科技有限公司 | A digital home gateway device and its processing method |
| CN101279686A (en) * | 2008-04-10 | 2008-10-08 | 西子奥的斯电梯有限公司 | Elevator system |
| CN101249915A (en) * | 2008-04-17 | 2008-08-27 | 西子奥的斯电梯有限公司 | Elevator system, operation information transmission method and hand-held elevator operation apparatus |
| CN102237715A (en) * | 2010-05-06 | 2011-11-09 | 上海贝红通信电器国际有限公司 | Circuit breaker remotely controlled by wireless signals and method for remotely controlling circuit breaker |
| CN202002260U (en) * | 2010-12-14 | 2011-10-05 | 佛山市中格威电子有限公司 | Centralized control switching circuit with wireless transceiving function for network air conditioner |
| CN201955897U (en) * | 2010-12-15 | 2011-08-31 | 廊坊柏纳控制新技术有限公司 | Communication control system for wireless operation of elevator control system |
| CN102320504A (en) * | 2011-07-13 | 2012-01-18 | 佛山市智邦电子科技有限公司 | Programming and state monitoring method and system for elevator system |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN103991760A (en) * | 2014-05-22 | 2014-08-20 | 广州日滨科技发展有限公司 | Elevator floor ID number distribution method and elevator hall exterior calling system |
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