CN204498113U - A kind of Super-minicomputer Ethernt E motor-car position control device easy for installation - Google Patents

Abstract

The utility model discloses a kind of Super-minicomputer Ethernt E motor-car position control device easy for installation, comprise housing unit, conductive base pin group, electric power management circuit, mobile communication module, mobile communication module antenna, MCU, GPS module, gps antenna, shock sensor, coding circuit, wireless signal transmission circuit, mobile communication module is uploaded the data messages such as geographical position and is received control command; MCU control coding circuit evolving encrypted data signal, is launched in the mode of wireless signal by wireless signal transmission circuit, realizes wireless control signal emission function.The advantage of this device is easy for installation, and installation site is unrestricted, disguised strong, enhances the function of motor vehicle position control device.

Description

A kind of Super-minicomputer Ethernt E motor-car position control device easy for installation

Technical field

the utility model relates to a kind of motor vehicle position control device, particularly relates to a kind of profile and the basically identical Super-minicomputer Ethernt E motor-car position control device of relay profile.

Background technology

bus location control device in the market, is well known that: circuit part is assembled in a housing, introduces one group of conductor wire provide power supply to locator by one end of housing.This locator volume relatively large not easily install and the conductor wire of powering for it easily expose, easily found that rear destruction causes disabler by lawless person.Market also has the locator of some subminiature internal batteries, do not need circumscripted power line, relay conventional on volume size and automobile close to or slightly large, it is relatively convenient to install and use, but be subject to the restriction of volume, make the capacity of internal battery very little, cause the stand-by time of complete machine also very short, limit the application of product.

in view of above background, be necessary to design a kind of profile substantially identical with conventional relay profile and there is the motor vehicle position control device of the conductive base pin identical with relay conductive base pin, be plugged on during use on the relay socket of motor vehicle, by relay socket for this device is powered.So not only solve the powerup issue of position control device, can fix easily and install again.Meanwhile, this device also add wireless control signal emission function, with the mode emission control instruction of wireless signal, can avoid all inconvenience and trouble that traditional position control device uses wire connection.This motor vehicle position control device has to be installed simply, and installation site is hidden, and profile has the advantage of higher camouflage, the function of this series products strengthened further.

Utility model content

in order to solve the problem, it is substantially identical with relay profile and have one group of conductive base pin that the utility model provides a kind of profile, be plugged in during use on the relay socket of motor vehicle, power through relay socket, add the motor vehicle position control device of wireless control signal emission function simultaneously.

this motor vehicle position control device, comprise housing unit and conductive base pin group, electric power management circuit, mobile communication module, mobile communication module antenna, be electrically connected between described conductive base pin, electric power management circuit, mobile communication module, mobile communication module antenna.

described housing unit, comprises relative upper surface and lower surface, and upper surface and lower surface are all square, the length that upper surface is square and the square length of lower surface roughly equal, the width that upper surface is square and the square width of lower surface roughly equal;

preferably, in order to not limit by this device own vol when installing this motor vehicle position control device on automobile, there is again the good profile property pretended simultaneously, volume and the structure of the inner PCBA part of this device of comprehensive analysis need, and determine that the preferably scope that this device overall dimension is selected is: the upper surface of described housing unit and the distance of lower surface of this motor vehicle position control device are of a size of 15 ~ 50 millimeters; The square length dimension of the lower surface of the described housing unit of this motor vehicle position control device is 13 ~ 35 millimeters, and width dimensions is 13 ~ 35 millimeters.

described housing unit comprises pedestal and thin-wall case, and described pedestal and described thin-wall case define the closed containing cavity of central hollow.

the material of the described pedestal and described thin-wall case that form described housing unit is plastic cement material, and plastic cement material has good electrical insulation property, and adopts mold injection when being convenient to described pedestal and described thin-wall case processing and forming, controls cost preferably.

described conductive base pin group, comprise quantity and be at least two or more conductive base pins, described conductive base pin is fixed on described pedestal, one end is above the lower surface about 5 ~ 25 millimeters of described housing unit, wherein two described conductive base pins run through the described pedestal of described housing unit, and are electrically connected with described electric power management circuit; When the total quantity of described conductive base pin is more than two, except two the described conductive base pins running through described pedestal, conductive base pin described in remaining can run through described pedestal;

the arrangement position of described conductive base pin, quantity, the physical dimension of exposed portion match with the pin holes position of the relay socket on motor vehicle; When this motor vehicle position control device is plugged on the relay socket matched, the conductive base pin running through pedestal by two is powered for this device.

the material forming the described conductive base pin of described conductive base pin group is the good metal material of conductance, its objective is by described conductive base pin as subsequent conditioning circuit provides good power supply, and adopt punch process when being convenient to described conductive base pin processing and forming, control cost preferably.

described electric power management circuit, mobile communication module and mobile communication module antenna package are dissolved in the described closed containing cavity of described housing unit;

described electric power management circuit is converted to subsequent conditioning circuit required voltage the supply voltage that described conductive base pin group provides and powers for it.The supply voltage provided due to the storage battery of motor vehicle is 12V or 24V mostly, and the operating voltage of the subsequent conditioning circuits such as mobile communication module is mostly 5V or 3.3V, the effect of described electric power management circuit is exactly be the operating voltage that subsequent conditioning circuit needs 12V or 24V voltage transitions.

described mobile communication module to communicate with cellular base station through described mobile communication module antenna and transmits data and instruction, comprising the Network Capture positional information by mobile operator, send with note or the mode that uploads data to background server, realize positioning function.

preferably, this motor vehicle position control device also comprises the GPS module, gps antenna and the MCU that are contained in the described containing cavity of this housing unit, this GPS module and this gps antenna are electrically connected, and this MCU is electrically connected with this GPS module and this mobile communication module respectively; This electric power management circuit is electrically connected with this MCU and this GPS module respectively and is that it is powered.This GPS module is transferred to this MCU after the data processing obtained from satellite through gps antenna, and the data of acquisition are uploaded to background server by cellular base station through this mobile communication module by this MCU again.

compare with architecture, GPS module is except can providing the geographic position data of the positioning precision reaching 5 ~ 10 meters, and can also provide more as data such as speed, direction of motion angle, times, function is more comprehensive.

preferably, this motor vehicle position control device also comprises and is contained in coding circuit in the containing cavity of this housing unit and wireless signal transmission circuit; This electric power management circuit is electrically connected with this coding circuit and this wireless signal transmission circuit respectively and powers for it; This MCU and this mobile communication module are electrically connected with this coding circuit respectively, and this coding circuit and this wireless signal transmission circuit are electrically connected; This MCU and this mobile communication module can control the generation of this coding circuit respectively and have specific format and content-defined encrypted data signal, launched, realize wireless control signal emission function by this wireless signal transmission circuit.

preferably, this mobile communication module is transferred to this MCU the control command data obtained from cellular base station, and this MCU is by after the data processing that obtains, and output logic level signal, controls this coding circuit.Under the control of the logic level signal that this coding circuit produces at this MCU, generate and there is specific format and content-defined data-signal and take cryptographic algorithm to be encrypted generation encrypted data signal to data-signal, launched in the mode of wireless signal by this wireless signal transmission circuit again, realize wireless control signal emission function.Use MCU control coding circuit to compare with use mobile communication module direct control encode circuit, the former uses more flexible, and function is abundanter.

this coding circuit can produce one or more encrypted data signal, for performing one or more controlling functions.

preferably, this motor vehicle position control device also comprises the close range wireless communication module be contained in the containing cavity of this housing unit, and it is electrically connected with this electric power management circuit, this coding circuit and this MCU respectively; This close range wireless communication module can output logic level signal control this coding circuit generate there is specific format and content-defined encrypted data signal, launched in the mode of wireless signal by this wireless signal transmission circuit, realize wireless control signal emission function.This close range wireless communication module and mobile phone or panel computer are through authentication and after being connected, can directly control this coding circuit.This close range wireless communication module, except can directly control this coding circuit, can also intercom with this MCU phase, transmitting control data, controls this coding circuit by after this MCU process.

preferably, this close range wireless communication module described in this motor vehicle position control device can be bluetooth module or WIFI module.This close range wireless communication module described in this motor vehicle position control device can adopt bluetooth module or WIFI module, plays authentication, exports the effect of connection status and closely data communication.

preferably, in this motor vehicle position control device, the equipment realizing short distance communication function with this close range wireless communication module can be mobile phone or panel computer.User by mobile phone or the panel computer hardware carrier as authentication and operation, can send control command to this motor vehicle position control device.

preferably, in order to strengthen the Information Security of this motor vehicle position control device, needing the data of the representative capacity information verifying this close range wireless communication module when this close range wireless communication module and mobile phone or panel computer first connection and being connected password.

the mobile phone of good authentication or the information of panel computer are stored in this close range wireless communication module by this close range wireless communication module, certainly can be dynamically connected, do not need manual operation when it is connected again with mobile phone or panel computer, add the convenience that user uses.

preferably, this motor vehicle position control device also comprises the shock sensor be contained in the containing cavity of this housing unit, and this shock sensor is electrically connected with this MCU and this electric power management circuit respectively.This MCU does not detect that within the certain hour cycle namely the signal that this shock sensor sends enters sleep for electricity saving pattern, exits sleep for electricity saving pattern when vibration signal being detected.This MCU is according to the vibration signal obtained from this shock sensor, and the GPS module that control power consumption is larger and mobile communication module are in battery saving mode or off-mode when motor car engine does not operate; When motor car engine operates, this shock sensor detects that vibration signal this MCU backward outputs signal, after this MCU detects continual and steady vibration signal regular hour section, and control GPS module and the start of mobile communication module also normal work.

preferably, this motor vehicle position control device also comprises the rechargeable battery be contained in the containing cavity of this housing unit, itself and electric power management circuit are electrically connected, described rechargeable battery both can in the normal situation of externally fed by described electric power management circuit for its charging and store electrical energy, also for subsequent conditioning circuit is powered in the abnormal situation of externally fed, thus functional reliability and the stability of this device can be further ensured.

when this motor vehicle position control device works, automatically upload the position data of this device and other data to background server.

after this motor vehicle position control device receives the control command sent by cellular base station, this device sends wireless control signal.

when mobile phone or panel computer are connected with this motor vehicle position control device, this device can send wireless control signal automatically.

send control command to this device when mobile phone or panel computer are connected with this motor vehicle position control device, this device can send wireless control signal.

after the wireless receiving control circuit be made up of wireless signal receiving circuit, decoding circuit, power circuit and executive circuit receives the wireless control signal that this motor vehicle position control device sends, through decoding and performing corresponding controlling functions, realize Radio Control Function.

advantageous Effects of the present utility model is, provide a kind of profile substantially identical with relay profile and there is one group of conductive base pin, be plugged in during use on the relay socket of motor vehicle, power through relay socket, add the motor vehicle position control device of wireless control signal emission function simultaneously.In addition, also add with mobile phone or panel computer as operation carrier closely operates the function of position control device.This motor vehicle position control device has to be installed simply, and installation site is hidden, and profile has the advantage of higher camouflage, the function of this series products strengthened further.

Accompanying drawing explanation

below in conjunction with drawings and Examples, explanation is further described for embodiment of the present utility model.

fig. 1 is the monnolithic case schematic diagram of the utility model embodiment.

fig. 2 is the schematic perspective view of the utility model embodiment.

fig. 3 is the perspective exploded view of the utility model embodiment.

fig. 4 is the inside perspective view after the utility model embodiment removes thin-wall case.

fig. 5 is the broken section schematic perspective view after the utility model embodiment removes circuit.

fig. 6 is the circuit function block diagram of the utility model embodiment one.

fig. 7 is the circuit function block diagram of the utility model embodiment two.

Embodiment

see Fig. 1, Fig. 2, Fig. 3, Fig. 4 and Fig. 5, the motor vehicle position control device 300 that the utility model embodiment provides comprises: housing unit 100, conductive base pin group 120, PCBA 130 form, wherein:

housing unit 100 is made up of pedestal 100a and thin-wall case 100b; Conductive base pin group 120 is made up of conductive base pin 120a, 120b, 120c and 120d; PCBA 130 includes the embodiment one described in this specification or the circuit described in embodiment two.

pedestal 100a and thin-wall case 100b is cooperatively interacted by the convex-concave fixing structure 127 being arranged at thin-wall case 100b open at one end, and the relative position between buckle structure (not drawing in Fig. 5) the fixed pedestal 100a of the relative opposite side of buckle structure 128 as shown in Figure 5 and this buckle structure 128 position and thin-wall case 100b.

conductive base pin 120b and 120c runs through pedestal 100a from housing unit 100 externally to interior, and form the conducting end 125b and 125c that expose respectively, conducting end 125b and 125c is electrically connected with the circuit on PCBA 130 respectively.External power source passes through conductive base pin 120b and 120c to the circuit supply on PCBA 130.

pCBA 130 one end insertion in this device is arranged in the holddown groove 126 on pedestal 100a, and the other end is fixed by thin-wall case 100b inner surface.

see Fig. 6, the functional circuit of the motor vehicle position control device that the utility model embodiment one provides comprises: conductive base pin 120b, conductive base pin 120c, PCBA 130, and wherein PCBA 130 comprises: electric power management circuit 20, mobile communication module 30 and mobile communication module antenna 35.

below the utility model embodiment one is described in further details:

conductive base pin 120b, conductive base pin 120c are connected with the power supply on motor vehicle through relay socket, for electric power management circuit 20 and subsequent conditioning circuit are powered.

electric power management circuit 20 is follow-up circuit required voltage 12V or the 24V voltage transitions from motor vehicle and powers for it.

mobile communication module 30 and cellular base station communication transmitting data, comprising the Network Capture positional information by mobile operator, send for inquiry with note or the mode that uploads data to background server, thus realize the position location functionality of motor vehicle.

mobile communication module 30 can select model to be the mobile communication module of GC65, and GC65 module is the four frequency band GSMs/GPRS wireless module of a technical grade, and its working frequency range is: GSM850MHz, GSM900MHz, DCS1800MHz and PCS1900MHz.GC65 module provides GPRS data transmission, GSM voice and short message service function, the AT order of the Data Transport Protocols such as embedded TCP/UDP/PPP/HTTP and expansion.

the effect of mobile communication module antenna 35 is transmitting and receiving radio wave signals.

see Fig. 7, the functional circuit of the motor vehicle position control device that the utility model embodiment two provides comprises: conductive base pin 120b, conductive base pin 120c, PCBA 130, and wherein PCBA 130 comprises: electric power management circuit 20, rechargeable battery 25, mobile communication module 30, mobile communication module antenna 35, GPS module 40, gps antenna 45, shock sensor 50, MCU 70, close range wireless communication module 80, coding circuit 85 and wireless signal transmission circuit 90.

below the utility model embodiment two is described in further details:

conductive base pin 120b, conductive base pin 120c are connected with the power supply on motor vehicle through relay socket, for electric power management circuit 20 and subsequent conditioning circuit are powered.

electric power management circuit 20 is follow-up circuit required voltage 12V or the 24V voltage transitions from motor vehicle and powers for it.

the effect of rechargeable battery 25 is its charging and store electrical energy by electric power management circuit 20 in the normal situation of externally fed, and be circuit supply by it in the abnormal situation of externally fed, thus further ensure functional reliability and the stability of this device.Rechargeable battery 25 can select the lithium polymer battery of built-in charge-discharge protection circuit.

mobile communication module 30 and cellular base station communication transmitting data, uploading position data, receive control command.

mobile communication module 30 can select model to be the mobile communication module of GC65.

the effect of mobile communication module antenna 35 is transmitting and receiving radio wave signals.

the effect of the GPS module 40 in this device is: after the signal that gps antenna 45 receives from satellite, through the data such as the standard setting time that obtains, longitude, latitude, relative displacement, relative displacement direction, date of a series of computing, these data are transferred to MCU 70 through data-interface.

gPS module 40 in this device can select model to be the GPS module of UBLOX-6010-ST, this GPS module uses high performance u-blox 6 engine of positioning, higher sensitivity, shorter capture time are provided, add advanced AF panel mechanism, even if also GPS performance can be ensured to greatest extent in rugged environment.

the effect of shock sensor 50 is: output signal to MCU 70 when being given a shock, and performs corresponding control and data-transformation facility by MCU 70.Shock sensor 50 can select CLA-3 miniature omnidirectional shock sensor.

the effect one of the MCU 70 in this device be communicate with GPS module 40 obtain the data such as geographical location information after uploaded by mobile communication module 30, realize positioning function; The effect two of MCU 70 is that the vibration data sent according to shock sensor 50 controls self enter or exit battery saving mode, and control mobile communication module 30 and GPS module 40 enter or exit power saving or shutdown mode simultaneously; The effect three of MCU 70 is that after the control command data obtained from mobile communication module 30 and close range wireless communication module 80 according to process, control coding circuit 85 produces corresponding enciphered data command signal, is launched by wireless signal transmission circuit 90.

mCU 70 in this device can select model to be 32 ARM Cortex-M3 kernel MCU of STM32F103RCT6, and the built-in 256kB Flash of this MCU, most high workload clock is 72MHz, and 64 pin, can support multiple UART interface.

the effect of close range wireless communication module 80 is: authentication, output connection status and closely data communication.Close range wireless communication module 80 and mobile phone or panel computer are through authentication and after being connected, directly can control this coding circuit 85, also can receive and send control command data with mobile phone or panel computer for operating carrier, these data are through MCU70 control coding circuit 85.Close range wireless communication module 80 can select model to be the bluetooth module of CC2540A in the utility model embodiment two, this bluetooth module adopts the CC2540 single-chip low-power consumption bluetooth transceiver of TI company as core processor, be integrated with the antenna of transfer of data, can the mutual communication with bluetooth equipment very easily.

the effect of coding circuit 85 produces to have specific format and content-defined encrypted data signal under the control of mobile communication module 30, MCU70, close range wireless communication module 80.

coding circuit 85 can select model to be the integrated circuit of HCS300, and it is a rolling code coding chip based on KEELOQ algorithm, owing to have employed advanced non-linear bit encryption technology, can produce the coding with high confidentiality and fail safe.When any one input pin position of integrated circuit HCS300 is in high level, output pin position can export a group encryption data-signal corresponding with it and export from output pin position, easy to use.

the effect of wireless signal transmission circuit 90 is that the encrypted data signal that coding circuit 85 generates is launched in wireless signal mode.

in the utility model embodiment two, the mode that controller motor-car position control device launches wireless control signal has two kinds: one to be that remote controlled manner sends control command by cellular base station to this device, two is that closely control mode sends control command with mobile phone or panel computer to this device, and following length illustrates respectively:

the first, remote controlled manner: after sending control command by cellular base station to the mobile communication module 30 of this motor vehicle position control device, mobile communication module 30 receives data, the data received output to MCU 70 through data-interface, MCU 70 processes the generation of rear output corresponding logic level signal control coding circuit 85 and has specific format and content-defined encrypted data signal, the encrypted data signal produced is modulated after amplification through wireless signal transmission circuit 90 and is launched, and completes wireless control signal emission function.

the second, closely control mode: the pairing name being found the CC2540A bluetooth module of composition close range wireless communication module 80 on mobile phone or panel computer by application program, again the input MAC Address code data that represents its unique identities be connected password, complete authentication process itself.The information of the mobile phone that success connects or panel computer is stored in the CC2540A bluetooth module of composition close range wireless communication module 80, repetition authentication process itself is not needed, as long as mobile phone or panel computer automatically can complete connection in the effective transmission range of Bluetooth signal when again connecting.

when mobile phone or panel computer are in the effective transmission range of Bluetooth signal, automatically complete with the CC2540A bluetooth module of composition close range wireless communication module 80 and be connected.During successful connection, a port of the CC2540A bluetooth module of composition close range wireless communication module 80 exports high level signal, the coding circuit 85 be electrically connected with it produces encrypted data signal, and launched in wireless signal mode by wireless signal transmission circuit 90, complete wireless control signal emission function.When CC2540A bluetooth module and the mobile phone or panel computer that form close range wireless communication module 80 disconnect, corresponding port output low level signal, coding circuit 85 stops generation data-signal, then wireless signal transmission circuit 90 also not wireless signal emission.

the CC2540A bluetooth module of composition close range wireless communication module 80 can also carry out data communication by data-interface and MCU 70, the control command data sent for operation carrier with mobile phone or panel computer are transferred to MCU 70, after MCU 70 processes, control coding circuit 85 produces corresponding encrypted data signal, launch through wireless signal transmission circuit 90 again, complete wireless control signal emission function.

above content is in conjunction with concrete execution mode further detailed description of the utility model, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, without departing from the concept of the premise utility, some simple deduction or replace can also be made.

Claims (10)

1. a motor vehicle position control device, comprise housing unit and conductive base pin group, electric power management circuit, mobile communication module, mobile communication module antenna, be electrically connected between described conductive base pin group, described electric power management circuit, described mobile communication module, described mobile communication module antenna, it is characterized in that:

Described housing unit, comprises relative upper surface and lower surface, and upper surface and lower surface are all square, the length that upper surface is square and the square length of lower surface roughly equal, the width that upper surface is square and the square width of lower surface roughly equal;

The upper surface of described housing unit and the distance of lower surface are of a size of 15 ~ 50 millimeters; The square length dimension of the lower surface of described housing unit is 13 ~ 35 millimeters, and width dimensions is 13 ~ 35 millimeters;

Described housing unit comprises pedestal and thin-wall case, and described pedestal and described thin-wall case define the containing cavity closed of central hollow;

The material of described pedestal and described thin-wall case is plastic cement material;

Described conductive base pin group, comprise quantity and be at least two or more conductive base pins, described conductive base pin is fixed on described pedestal, one end is exposed to the lower surface about 5 ~ 25 millimeters of described housing unit, two described conductive base pins wherein run through the described pedestal of described housing unit, and are electrically connected with described electric power management circuit; When the total quantity of described conductive base pin is more than two, except two the described conductive base pins running through described pedestal, conductive base pin described in remaining can run through described pedestal;

Form the arrangement position of the described conductive base pin of described conductive base pin group, quantity, the physical dimension of exposed portion match with the pin holes position of motor vehicle relay socket;

The material of described conductive base pin is metal conductive materials;

Described electric power management circuit, mobile communication module and mobile communication module antenna package are dissolved in the closed containing cavity that described pedestal and described thin-wall case formed;

Described electric power management circuit is converted to subsequent conditioning circuit required voltage the supply voltage provided through described conductive base pin group and powers for it;

Described mobile communication module communicates with cellular base station and transmits data.

2. motor vehicle position control device according to claim 1, it is characterized in that: also comprise the GPS module, gps antenna and the MCU that are contained in this containing cavity of this housing unit, this GPS module and this gps antenna are electrically connected, and this MCU is electrically connected with this GPS module and this mobile communication module respectively; This MCU and this GPS module are electrically connected with this electric power management circuit respectively.

3. motor vehicle position control device according to claim 1 and 2, is characterized in that: also comprise and be contained in coding circuit in this containing cavity of this housing unit and wireless signal transmission circuit; This electric power management circuit and this coding circuit and this wireless signal transmission circuit are electrically connected; This MCU and this mobile communication module are electrically connected with this coding circuit respectively, and this coding circuit and this wireless signal transmission circuit are electrically connected; This MCU and this mobile communication module can control the generation of this coding circuit respectively and have specific format and content-defined encrypted data signal, launched, realize wireless control signal emission function by this wireless signal transmission circuit.

4. motor vehicle position control device according to claim 3, is characterized in that: also comprise the close range wireless communication module be contained in this containing cavity of this housing unit, and itself and this electric power management circuit, this MCU and this coding circuit is electrically connected; This close range wireless communication module can control the generation of this coding circuit and have specific format and content-defined encrypted data signal, is launched, realize wireless control signal emission function by this wireless signal transmission circuit in the mode of wireless signal; This close range wireless communication module also can send control command to this MCU, controls the generation of this coding circuit have specific format and content-defined encrypted data signal by this MCU.

5. motor vehicle position control device according to claim 4, is characterized in that: this close range wireless communication module can be bluetooth module or WIFI module.

6. motor vehicle position control device according to claim 4, is characterized in that: the equipment realizing close range communication function with this close range wireless communication module can be mobile phone or panel computer.

7. motor vehicle position control device according to claim 2, is characterized in that: also comprise the shock sensor be contained in this containing cavity of this housing unit, this shock sensor and this MCU are electrically connected, and are electrically connected with this electric power management circuit.

8. motor vehicle position control device according to claim 3, is characterized in that: also comprise the shock sensor be contained in this containing cavity of this housing unit, this shock sensor and this MCU are electrically connected, and are electrically connected with this electric power management circuit.

9. motor vehicle position control device according to claim 4, is characterized in that: also comprise the shock sensor be contained in this containing cavity of this housing unit, this shock sensor and this MCU are electrically connected, and are electrically connected with this electric power management circuit.

10. the motor vehicle position control device according to claim 1,2,4,5,6,7,8 or 9, is characterized in that: also comprise the rechargeable battery be contained in this containing cavity of this housing unit, and itself and this electric power management circuit is electrically connected.