CN203858369U - Super-long standby time positioning tracking device - Google Patents
Super-long standby time positioning tracking device Download PDFInfo
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- CN203858369U CN203858369U CN201420081854.2U CN201420081854U CN203858369U CN 203858369 U CN203858369 U CN 203858369U CN 201420081854 U CN201420081854 U CN 201420081854U CN 203858369 U CN203858369 U CN 203858369U
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- switch
- clock chip
- rtc clock
- power supply
- standby time
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Abstract
The utility model relates to a super-long standby time positioning tracking device. The super-long standby time positioning tracking device comprises an RTC clock chip, a power source, a switch and a positioning device, wherein the power source is connected with the RTC clock chip and one end of the switch, the other end of the switch is connected with the positioning device, the positioning device controls and is connected with the RTC clock chip, and the RTC clock chip controls closing and opening of the switch. The super-long standby time positioning tracking device can realize excellent management on tracked equipment, has super-long standby time and can utilize the independent power source to realize long time operation, and thereby product popularization and use can be better propelled.
Description
[technical field]
The utility model relates to super long standby time timi requirement follow-up mechanism.
[background technology]
At present, along with people's living standard improves, people require more and more higher to the comfort level of life.For the comfort level that improves life, the use of car is very important means; Therefore, car is hired out and car is borrowed the industry development of selling and grown stronger day by day.Meanwhile, the phenomenon that also exists some to conclude the business to gain the object of car by cheating.In order to manage better the situation of car, conventionally all at automobile location tracking device is housed snugly, can reach the object of following the trail of car, but, current location tracking device is the power supply that uses car, therefore, be just easy to find out location tracking device and remove or cut off the power supply of location tracking device along the connecting line of the power supply of car.Visible, current location tracking device is in the object that realizes good management car or have larger problem.Equally, also there is same problem for management and monitoring in other things in this location tracking device.
[utility model content]
The technical problems to be solved in the utility model is to provide a kind of super long standby time timi requirement follow-up mechanism, can realize the object of the tracked things of good monitoring management, and low-loss and energy-saving, is beneficial to long-term work.
Above-mentioned technical matters solves by following two kinds of technical schemes:
The first scheme is: super long standby time timi requirement follow-up mechanism, comprise RTC clock chip, the first power supply, the first switch and steady arm, the first power supply connects one end of RTC clock chip and the first switch, the other end connecting positioner of the first switch, steady arm control linkage RTC clock chip, the folding of RTC clock chip control the first switch.
First scheme is: super long standby time timi requirement follow-up mechanism, it is characterized in that, comprise RTC clock chip, the first power supply, second source, the first switch and steady arm, the first power supply connects one end of the first switch, the other end connecting positioner of the first switch, second source is to the power supply of RTC clock chip, steady arm control linkage RTC clock chip, the folding of RTC clock chip control the first switch.
The further scheme of above-mentioned two schemes is, communication module and locating module that described steady arm comprises processing module and is connected with processing module, processing module control linkage RTC clock chip.
Further scheme is, described steady arm also comprises second switch and the 3rd power supply, and the 3rd power supply is powered to communication module and locating module by second switch, described processing module control second switch.
Further scheme is, described communication module adopts GRPS module or CDMA module.
Further scheme is, described locating module adopts GPS module.
Further scheme is, described RTC clock chip adopts BL5372 clock chip.
As seen from the above technical solution, the utility model is by using independently the first Power supply, and need on tracked equipment, not obtain working power, therefore, can make an independently device, and can very snugly location tracking device be arranged on tracked equipment, thereby realize the tracked equipment object of good management; In addition, the folding that coordinates work the first power supply of controlling steady arm with RTC clock chip with the first switch, in the time not needing steady arm work, disconnect the first switch to cut off the first power supply of steady arm completely, steady arm does not have power consumption completely, only only has the work of RTC clock chip, now, the power consumption of location tracking device is extremely low, therefore, this kind of frame mode has the feature of ultra-long time standby, realized and used the object that independently the first power supply carries out long-term work, thereby more can advance the universal use of product.Above-mentioned the first scheme is used the power supply of the first power supply as whole device, with respect to the first scheme that adopts the first power supply and second source, can on volume, do compactlyer, adapts to more neatly installation environment.
[brief description of the drawings]
Fig. 1 is the structural representation of the location tracking device of embodiment mono-;
Fig. 2 is the structural representation of the location tracking device of embodiment bis-;
Fig. 3 is the structural representation of the location tracking device of embodiment tri-.
[embodiment]
Embodiment mono-
As shown in Figure 1, super long standby time timi requirement follow-up mechanism, comprise RTC clock chip, the first power supply, the first switch and steady arm, the first power supply connects one end of RTC clock chip and the first switch, the other end connecting positioner of the first switch, steady arm control linkage RTC clock chip, the folding of RTC clock chip control the first switch.
Communication module and locating module that steady arm comprises processing module and is connected with processing module, processing module control linkage RTC clock chip.
Wherein, communication module can adopt but be not limited to GRPS module or CDMA module.
Locating module can adopt but be not limited to GPS module.
RTC clock chip can adopt but be not limited to BL5372 clock chip.
The principle of work of location tracking device is: the first power supply provides work the first power supply to RTC clock chip always, and RTC clock chip is always in running status, and the first power supply provides work the first power supply to steady arm in the first switch closure; In the first switch closure each time, the processing module of steady arm can complete its required work, in the meantime, drive the opening time of the first switch closure all can to the input of RTC clock chip next time, then input shutdown command to RTC clock chip, RTC clock chip drives the first switch to disconnect, steady arm is lost the job the first power supply in closed condition, and RTC clock chip continues operation, and in the time of the described opening time, drive the first switch closure, steady arm is started working again.
Location tracking device is by using independently the first Power supply, and need to be in tracked things (not for example, car) on obtain work the first power supply, therefore, can very snugly location tracking device be arranged in tracked things, thereby realize the tracked things object of good monitoring management.In addition, the folding that coordinates work the first power supply of controlling steady arm with RTC clock chip with the first switch, in the time not needing steady arm work, disconnect the first switch to cut off the first power supply of steady arm completely, steady arm does not have power consumption completely, only only has the work of RTC clock chip, now, the power consumption of location tracking device is extremely low, and this kind of frame mode realized and used the object that independently the first power supply carries out long-term work.
In order to realize better the object of ultra-low loss, the utility model also provides a kind of low consumption method for tracing based on above-mentioned super long standby time timi requirement follow-up mechanism, and it comprises:
1) complete mode of operation and the multiple low consumption mode of operation of tackling multiple situation are set in processing module;
2) utilize the closed of RTC clock chip control the first switch or disconnect and control being communicated with or cut-out of processing module and first power supply of working;
3) processing module receives the work order from the server of Surveillance center by communication module under "on" position;
4) processing module, according to received work order, is determined mode of operation, thereby sends corresponding steering order, the specific works mode of communication control module, locating module and RTC clock chip.
Super long standby time timi requirement follow-up mechanism is to carry out communication by the server of communication module and Surveillance center.
Associative list 1, in practice, in processing module, altogether integrated 7 kinds of mode of operations, comprise complete mode of operation (claiming again satellite pattern at full speed) and six kinds of low consumption mode of operations.
Wherein, V1 represents the logon information that location tracking device sends to the server of Surveillance center, and V3 represents the basic status information that location tracking device sends to the server of Surveillance center; Daily schedule is for being preset in processing module, doze off, normally, the daily schedule of guarding against this mode of operation of three kinds is generally different, in the time of deisgn product, can carry out different designs according to different demands.
The setting of above-mentioned each mode of operation as follows according to situation:
1, standard sleep pattern: not abnormal generation.Under this pattern, tracker every day at most only start once, GPS does not start shooting, after game server, only report basic logon information to server, waits within 15 seconds, do not receive server further order laggard enter off-mode, postpone 30 seconds after receiving server command.Mode standard is notified by work order (also claiming S41 order).
2, cycle sleep pattern: cycle sleep pattern is notified by work order, reports for work by regular time interval start.Cycle sleep pattern and standard sleep pattern are referred to as sleep pattern.
3, the pattern of dozing off: have abnormal conditions to occur, but also do not confirm danger, typical situation is that loan vehicle exceeds the time limit and do not repay.This pattern is carried out the on time by work order time point, and can start shooting repeatedly every day, and each on time is specified by work order, but can not open locating module, ensures to stand ready.The pattern of dozing off is notified by work order.
Whether 4, normal mode: this pattern is carried out the on time by work order time point, and can start shooting repeatedly every day, each on time, open locating module and specify by work order.Normal mode is notified by work order.
5, guard model: confirmed danger, the vehicle of for example providing a loan has been confirmed to cheat loan, Car Rental are confirmed stolen.This pattern is carried out the on time by work order time point, and can start shooting repeatedly every day, and each on time is specified by work order, can open locating module, ensures to stand ready.Guard model is notified by work order.
6, base station pattern at full speed: be called for short base station mode.At full speed base station mode is notified by work order, and locating module is not started shooting, communication module is started shooting always, and interval in accordance with regulations sends tcp logging, until running down of battery or receive that S41 order enters new pattern.
7, satellite pattern at full speed: be called for short satellite mode.At full speed satellite mode is notified by work order, and locating module, communication module homogeneous head straight for machine, and interval in accordance with regulations sends TCP, UDP record, until running down of battery or receive that S41 order enters new pattern.
Different from traditional location tracking terminal, super long standby time timi requirement follow-up mechanism adopts the number of times of reporting for work, stand-by time/report, base station, and time/report, four parameters of satellite full speed time/report are examined its performance index, the definition description specific as follows of four parameters at full speed.
The number of times of reporting for work: the number of times of tracker game server in whole battery life under sleep pattern.
Stand-by time/report: the consumes power of at every turn reporting for work can be used for how long standby.
Base station is time/report at full speed: the consumes power of at every turn reporting for work can be used for the time of working under the full speed pattern of base station.
Satellite is time/report at full speed: the consumes power of at every turn reporting for work can be used for the time of working under satellite full speed pattern.
Working time sample calculation: the design parameter of the some super long standby time timi requirement follow-up mechanisms in practical application is: the number of times of reporting for work is 1500 times, 1920 hours (80 days) standby/reports, 1 minute satellite full speed/report, 5 minutes base station full speed/reports.In order to find out more intuitively the location tracking device with above-mentioned parameter, carry out following conversion described:
1, whole battery life can be reported for work 1500 times, and reporting for work once a day can standby 4 years, the theoretical standby 26 years of reporting for work once for a week (deducted standby in 26 years and additionally consumed 26x365/80=119 report);
If report for work once 2 every days, the number of times of reporting for work consuming for 2 years 730 days is 730+730/80=739 time, within 2 years, opens afterwards satellite mode at full speed and also can work 1500-739=761 minute 12.7 hours, and base station mode can be worked 63.4 hours at full speed;
Can work at full speed 1500 minutes 25 hours if 3 are directly used in satellite, can work 125 hours at full speed in base station.
Embodiment bis-
What the present embodiment was different from embodiment mono-is, in the present embodiment, use alone one independently second source provide power supply to RTC clock chip, the first power supply does not need to provide power supply to RTC clock chip again, the principle of work of other devices is consistent with the description of embodiment mono-.
As shown in Figure 2, the super long standby time timi requirement follow-up mechanism of the present embodiment, comprise RTC clock chip, the first power supply, second source, the first switch and steady arm, the first power supply connects one end of the first switch, the other end connecting positioner of the first switch, second source is to the power supply of RTC clock chip, steady arm control linkage RTC clock chip, the folding of RTC clock chip control the first switch.
Communication module and locating module that steady arm comprises processing module and is connected with processing module, processing module control linkage RTC clock chip.
Wherein, communication module can adopt but be not limited to GRPS module or CDMA module.
Locating module can adopt but be not limited to GPS module.
RTC clock chip can adopt but be not limited to BL5372 clock chip.
Embodiment tri-
The present embodiment is different from embodiment bis-, the concrete structure of steady arm.
As shown in Figure 3, the super long standby time timi requirement follow-up mechanism of the present embodiment, comprise RTC clock chip, the first power supply, second source, the first switch and steady arm, the first power supply connects one end of the first switch, the other end connecting positioner of the first switch, second source is to the power supply of RTC clock chip, steady arm control linkage RTC clock chip, the folding of RTC clock chip control the first switch.
Steady arm comprises second switch, the 3rd power supply, processing module and the communication module and the locating module that are connected with processing module, and the 3rd power supply is powered to communication module and locating module by second switch, processing module control linkage RTC clock chip and second switch.
Wherein, communication module can adopt but be not limited to GRPS module or CDMA module.
Locating module can adopt but be not limited to GPS module.
RTC clock chip can adopt but be not limited to BL5372 clock chip.
In embodiment mono-and embodiment bis-, the power supply of communication module and locating module provides by the first power supply, and in the present embodiment, the power supply of communication module and locating module is provided by the 3rd power supply.The processing module of steady arm, in the time that needs start the work of communication module or locating module, will be controlled second switch and be communicated with to power supply; The processing module of steady arm, in the time not needing communication module and locating module work, will be controlled second switch and disconnect cutting off the electricity supply.
The utility model is not limited to above-described embodiment, based on simple replacement above-described embodiment, that do not make creative work, should belong to the scope that the utility model discloses.
Claims (7)
1. super long standby time timi requirement follow-up mechanism, it is characterized in that, comprise RTC clock chip, the first power supply, the first switch and steady arm, the first power supply connects one end of RTC clock chip and the first switch, the other end connecting positioner of the first switch, steady arm control linkage RTC clock chip, the folding of RTC clock chip control the first switch.
2. super long standby time timi requirement follow-up mechanism, it is characterized in that, comprise RTC clock chip, the first power supply, second source, the first switch and steady arm, the first power supply connects one end of the first switch, the other end connecting positioner of the first switch, second source is to the power supply of RTC clock chip, steady arm control linkage RTC clock chip, the folding of RTC clock chip control the first switch.
3. super long standby time timi requirement follow-up mechanism according to claim 1 and 2, is characterized in that, communication module and locating module that described steady arm comprises processing module and is connected with processing module, processing module control linkage RTC clock chip.
4. super long standby time timi requirement follow-up mechanism according to claim 3, it is characterized in that, described steady arm also comprises second switch and the 3rd power supply, and the 3rd power supply is powered to communication module and locating module by second switch, described processing module control second switch.
5. super long standby time timi requirement follow-up mechanism according to claim 3, is characterized in that, described communication module adopts GRPS module or CDMA module.
6. super long standby time timi requirement follow-up mechanism according to claim 3, is characterized in that, described locating module adopts GPS module.
7. super long standby time timi requirement follow-up mechanism according to claim 1 and 2, is characterized in that, described RTC clock chip adopts BL5372 clock chip.
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CN201420081854.2U CN203858369U (en) | 2014-02-25 | 2014-02-25 | Super-long standby time positioning tracking device |
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CN201420081854.2U CN203858369U (en) | 2014-02-25 | 2014-02-25 | Super-long standby time positioning tracking device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103914011A (en) * | 2014-02-25 | 2014-07-09 | 珠海天琴信息科技有限公司 | Ultra-long standby time positioning tracking device and low-consumption tracking method |
CN105785405A (en) * | 2014-12-26 | 2016-07-20 | 深圳艾科创新微电子有限公司 | Real-time clock circuit, navigation control chip, and navigation device |
-
2014
- 2014-02-25 CN CN201420081854.2U patent/CN203858369U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103914011A (en) * | 2014-02-25 | 2014-07-09 | 珠海天琴信息科技有限公司 | Ultra-long standby time positioning tracking device and low-consumption tracking method |
CN105785405A (en) * | 2014-12-26 | 2016-07-20 | 深圳艾科创新微电子有限公司 | Real-time clock circuit, navigation control chip, and navigation device |
CN105785405B (en) * | 2014-12-26 | 2020-09-01 | 深圳开阳电子股份有限公司 | Real-time clock circuit, navigation control chip and navigation device |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CP01 | Change in the name or title of a patent holder |
Address after: Xinghua Road 519000 Guangdong city of Zhuhai province Xiangzhou No. 87 (Quan Yu building), 3 floor, 2 East Patentee after: Zhuhai tianqin information Polytron Technologies Inc Address before: Xinghua Road 519000 Guangdong city of Zhuhai province Xiangzhou No. 87 (Quan Yu building), 3 floor, 2 East Patentee before: ZHUHAI TIANQIN INFORMATION TECHNOLOGY CO., LTD. |
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20141001 Termination date: 20200225 |
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CF01 | Termination of patent right due to non-payment of annual fee |