JP3997815B2 - Vehicle drive system communication system, shift position command detection device, shift position control device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a vehicle drive system communication system configured to switch a shift position of a transmission using an actuator in accordance with an external command, a shift position command detection device suitable for realizing the communication system, and The present invention relates to a shift position control device.
[0002]
[Prior art]
Conventionally, in a vehicle drive system composed of an engine, a transmission, and the like, various electrical devices used for control (specifically, an engine control device, a transmission control device, etc.) are connected to each other via a communication line. Thus, a network is constructed, and these electrical devices perform data communication via the network, so that data necessary for control is shared, and the entire drive system can be controlled efficiently and optimally.
[0003]
On the other hand, among the devices constituting the vehicle drive system, in the transmission, a shift position switching operation unit (such as a shift lever) and a shift position of the transmission, which are conventionally connected directly or via a link mechanism. It is considered to separate the switching mechanism (so-called ShiftByWire system).
[0004]
That is, a shift position command detection device that detects a shift position command input by a driver's operation is provided on the operation portion side such as a shift lever, and the shift position command detection device detects the shift position command on the transmission side. By providing a shift position control device that switches the shift position of the transmission according to the shift position command, the operation unit provided in the vehicle interior and the transmission provided outside the vehicle interior are configured separately.
[0005]
And if it does in this way, while improving the workability | operativity at the time of assembling a transmission and its operation part to a vehicle, the freedom degree of arrangement | positioning of a transmission with respect to a vehicle can be raised.
[0006]
[Problems to be solved by the invention]
By the way, in order to realize such a ShiftByWire system, it is necessary to wire a signal line for transmitting the shift position command detected by the shift position command detection device to the shift position control device.
[0007]
  Also, the shift position control deviceDetection deviceIf the shift position of the transmission is switched only by the shift position command detected at, the shift position of the transmission will be switched even when the driver erroneously operates the operation unit while the vehicle is traveling. The shift position control device receives a detection signal from a sensor that detects the driving state of the vehicle (for example, the vehicle speed, the operating state of the brake device, etc.), and performs shift position switching in response to an erroneous operation of the operation unit by the driver. In order to achieve this, a signal line for inputting a detection signal from a sensor for detecting the driving state of the vehicle to the shift position control device is also required.
[0008]
However, vehicles, particularly automobiles, are equipped with a large number of electrical devices for vehicle control in response to market needs for fuel efficiency, improved operability, and improved convenience, and these electrical devices are connected to each other. Because a large number of signal lines are wired, it is difficult to add a new signal line to realize the ShiftByWire system, and the more signal lines that are wired to the vehicle, the more the signal lines are disconnected / contacted. Since a malfunction due to a malfunction or the like occurs and the reliability of the vehicle is lowered, there is a problem in adding a signal line to be wired to the vehicle in realizing the ShiftByWire system.
[0009]
Therefore, when the ShiftByWire system is realized, the shift position command detection device on the operation unit side and the shift position control device on the transmission side are respectively connected to the above-described vehicle drive system network, and the shift position command detection device is It is desirable to transmit the detected shift position command and the detection signal indicating the driving state of the vehicle to the shift position control device via the network of the vehicle drive system.
[0010]
However, since the ShiftByWire system conventionally separates the transmission and the operation unit that have been mechanically connected by using a direct connection or a link mechanism, the shift position command detection device on the operation unit side as described above, If the shift position control device on the transmission side is simply connected to the network of the vehicle drive system, it is conceivable that a shift position switching failure that cannot occur in a conventional vehicle may occur.
[0011]
That is, in the conventional vehicle, the operation of the shift lever by the driver is mechanically transmitted to the transmission. For example, even in a vehicle equipped with an automatic transmission, The shift position can be switched to a shift position where the vehicle can travel, such as drive “D”, back “R”, etc., and the vehicle can be retracted, but the ShiftByWire system detects the shift position command. If the transmission system of the shift position command between the device and the shift position control device has an abnormality, such evacuation traveling becomes impossible.
[0012]
For this reason, in realizing the ShiftByWire system, it is difficult to ensure safety when an abnormality occurs in the network simply by connecting the shift position command detection device and the shift position control device to the vehicle drive system network. It can be considered that the reliability of the vehicle is lower than that of the conventional vehicle.
[0013]
The present invention has been made in view of such problems, and an object of the present invention is to improve the safety and reliability of a vehicle when a ShiftByWire system is realized by using a network of vehicle drive systems.
[0014]
[Means for Solving the Problems]
  In the vehicle drive system communication system according to claim 1, which has been made to achieve the above object,Build a vehicle drivetrain networkTwo communication lines, a first communication line and a second communication line, are used as communication lines for data communication. Each communication line is provided with an operation unit for instructing the shift position of the transmission by an external operation. Provided shift position command detection device and this shift position commandDetection deviceA shift position control device for setting an optimum shift position suitable for the vehicle from the shift position command detected at the vehicle and the driving state of the vehicle and switching the shift position of the transmission to the optimum shift position. Electrical device is connected.
[0015]
  From the shift position command detection device to other electrical devices such as a shift position control device,Connect these devices to each otherA shift position command input from the operation unit is transmitted via two systems of communication lines (first communication line and second communication line).
  For this reason, according to the present invention, the first communication line is used, for example, due to disconnection / contact failure of the first communication line or failure of communication means in various electrical devices connected to the first communication line. Shift position commandDetection deviceEven if the shift position command cannot be transmitted to the shift position control device, the shift position commandDetection deviceThe shift position command is transmitted to the shift position control device via the second communication line.
[0016]
Therefore, according to the present invention, the shift position control device cannot acquire the shift position command from the shift position command detection device due to a failure of the network constructed by the first communication line or the second communication line, and the shift position of the transmission Can be prevented, the reliability of the ShiftByWire system including the shift position command detection device and the shift position control device can be improved, and the safety of the vehicle can be ensured.
[0017]
  In addition, according to the present invention, since the electric device of the vehicle drive system is connected by two communication lines (networks), only the shift position command is transmitted from the shift position command detection device to the shift position control device. Not from the shift position command detection deviceOther than shift position controllerThe reliability of transmission of the shift position command to an electrical device (for example, another control device of the vehicle drive system such as an engine control device or a shift control device) can be improved. Further, other than the shift position command detection deviceThe electricityVarious data necessary for the control of the vehicle drive system can be transmitted and received using the two communication lines (network) between the target devices (including the shift position control device).
[0018]
For this reason, according to the present invention, it is possible to improve not only the shift position switching control of the transmission but also the reliability of the entire vehicle drive system, thereby improving the reliability of the vehicle. Safety can be ensured when the vehicle is running.
By the way, in order to improve the reliability of the entire vehicle drive system in this way, two communication lines (networks) are also used between other electrical devices (including the shift position control device) other than the shift position command detection device. When performing data communication using the network, each electrical device may transmit all transmission data to other electrical devices using two communication lines (networks). For this purpose, it is necessary to provide each electrical device with communication means capable of transmitting and receiving the same data at the same communication speed.
[0019]
However, in a vehicle drive system communication system, it is necessary to transmit and receive various data at high speed for engine control and the like. When two communication means capable of such high speed communication are provided in each electrical device, the entire system is provided. Will increase the cost.
[0020]
  Therefore, in order to improve the reliability of the entire vehicle drive system, other than the shift position command detection deviceThe electricityIn the case where data communication is performed using two communication lines (networks) even between the target devices (including the shift position control device), the second communication line is as described in claim 2. A communication line for transmitting and receiving important data including a shift position command (in other words, a backup communication line), and electrical devices other than the shift position command detection device are, Each connected to each other via each communication lineOf the transmission data to be transmitted to other electrical devices, only important data set in advance is transmitted to the other electrical devices using the two communication lines of the first communication line and the second communication line. The data other than the important data may be transmitted to another electrical device using only the first communication line.
[0021]
In other words, in this way, it is only necessary to transmit and receive important data including the shift position command on the second communication line, so the communication speed on the second communication line is slower than the communication speed on the first communication line. As a result, the communication means for transmitting / receiving important data provided in each electrical device can be realized at a lower cost than the communication means connected to the first communication line and transmitting / receiving all data, and thus the communication system. The cost increase of the entire system that occurs to improve the reliability of the system can be suppressed.
[0022]
In particular, when the second communication line is used for the communication of only the shift position command or the backup communication of important data including the shift position command, as described in claim 3, the first communication line includes: A communication line dedicated to data communication is used, and a power line wired to the vehicle is preferably used as the second communication line in order to supply power from the in-vehicle power source to each electrical device.
[0023]
In other words, noise is likely to be superimposed on the power line, and if it is used for data communication where a communication speed is required, it may be impossible to ensure communication reliability. When using it for backup communication of important data including communication or shift position command, the communication speed can be lowered compared to using it for transmitting and receiving all data between each electrical device, The power line can be sufficiently used as the second communication line.
[0024]
In this way, in constructing the communication system of the present invention, it is not necessary to newly wire a communication line dedicated to data communication as the second communication line, so the communication system of the present invention is realized at a lower cost. it can.
On the other hand, in the communication system of the present invention, each electrical device transmits data such as a shift position command to be transmitted using two communication lines of the first communication line and the second communication line to one communication line. When the signal is received only at the terminal, various controls such as shift position switching can be executed using the received data.
[0025]
However, in this case, since the network constructed with other communication lines is in a state where normal data communication cannot be performed, if left as it is, the network capable of normal data communication also fails, and the vehicle drive system May not work properly.
[0026]
Therefore, as described in claim 4, each electrical device receives data to be transmitted using two communication lines of the first communication line and the second communication line only on one communication line. In this case, it may be configured to determine that there is an abnormality in the communication system on the other communication line and to notify the outside (specifically, an occupant such as a driver or an administrator outside the vehicle).
[0027]
In other words, in this way, when an abnormality occurs in the network constructed by one of the two communication lines, it is possible to prompt the driver etc. to inspect and repair the network. Therefore, it is possible to prevent both of the two networks from failing and causing the vehicle drive system to malfunction.
[0028]
Further, for example, even if each electrical device can receive data using two communication lines of the first communication line and the second communication line, it is mounted on the vehicle in the vehicle drive system communication system. In addition, since noise from various devices and noise from outside the vehicle are likely to intrude, it is also conceivable that errors may occur in received data due to the noise.
[0029]
Therefore, as described in claim 5, each electrical device, when receiving data transmitted using both the first communication line and the second communication line, determines the reliability of each data. It is advisable to adopt highly reliable data as received data.
In other words, in this way, an electrical device such as a shift position control device can receive normal data without errors as received data even if one of the data acquired via the two communication lines has an error. Thus, it can be used for the control, the malfunction of the vehicle drive system can be prevented, and the reliability of the vehicle can be further improved.
[0030]
In addition, in the system according to claim 5, as a procedure when each electrical device determines the reliability of the received data, for example, as described in claim 6, the data reception cycle and the past reception are performed. What is necessary is just to check at least one (preferably all) of the continuity of the data content from the data and the validity of the data content.
[0031]
  In other words, when the data reception cycle is different from the normal, when the data received this time has not changed continuously from the data received in the past, or when the data content is different from the normal time, the received data Therefore, if these checks are performed, the reliability of the received data can be accurately determined.
In addition, as an electric device of the vehicle drive system other than the shift position command detection device and the shift position control device connected to each other via the first communication line and the second communication line, the vehicle as described in claim 7 An engine control device that controls an engine that is a power source of the engine, and a shift control device that switches a gear ratio of an automatic transmission that transmits power from the engine to driving wheels according to the driving state of the vehicle.
In the communication system according to claim 7, the shift position control device, as described in claim 8, receives the engine speed, the vehicle speed from the engine control device and the transmission control device as data representing the driving state of the vehicle. The transmission gear position is acquired, and the optimum shift position of the transmission may be set based on the acquired data and the shift position command.
On the other hand, in the communication system of the present invention (Claims 1 to 8), the shift position command detection device, as described in claim 9, when transmitting the shift position command to another electrical device, Transmission data in which a time stamp value indicating the current time is added to the shift position command may be generated, and the transmission data may be transmitted in two systems via the first communication line and the second communication line.
[0032]
  next,Claims 10 and 11The present invention relates to a shift position command detection device suitable for realizing a ShiftByWire system using a vehicle drive system communication system,Claims 12 to 19The invention described in (1) also relates to a shift position control device suitable for realizing a ShiftByWire system using a vehicle drive system communication system.
[0033]
  AndClaim 10In the shift position command detection device described in (2), the detection means detects the shift position command input from the operation unit, and the shift position command transmission control means converts the detected shift position command into transmission data. The transmission data is transmitted at a predetermined transmission timing.From the first transmission means and the second transmission means,For the first communication line and the second communication lineTo each other connected electrical deviceAnd send.
[0034]
  Also,Claim 12In the shift position control device described in 1), the first communication means and the second communication means for transmitting and receiving data via the first communication line and the second communication line are provided, and the arithmetic means is both or one of these communication means. Acquires the shift position command and data representing the driving state of the vehicle from the received data received, calculates the optimum shift position of the transmission based on the acquired data, and the shift position switching means The shift position is switched to the optimum shift position.
[0035]
  Therefore,Claim 10The shift position command detection device describedClaim 12By constructing a vehicle drive system communication system using the described shift position control device, a shift position command input from the operation unit can be reliably transmitted from the shift position command detection device to the shift position control device. Accordingly, the present invention capable of constructing a highly reliable ShiftByWire system.Claim 9) Communication system can be easily realized.
In the shift position command detection device according to claim 10, the shift position command transmission control means adds a time stamp indicating the current time to the shift position command detected by the detection means as described in claim 11. It is good to give it and to generate transmission data.
Further, in the shift position control device according to claim 12, the calculation means, as described in claim 13, sets the engine speed, the vehicle speed, and the transmission gear position to the communication line as data representing the driving state of the vehicle. What is necessary is just to calculate the optimal shift position of a transmission based on the acquired data and shift position instruction | command acquired from the connected engine control apparatus and transmission control apparatus.
[0036]
  next,Claim 14The shift position control device described inClaim 12 or Claim 13The communication abnormality notifying means is provided in the description, and by the operation of the communication abnormality notifying means, data to be transmitted using both the first communication line and the second communication line is transmitted to the first communication means and the second communication. When it is received by only one of the means, it is judged that there is an abnormality in the communication system on the communication line to which the other communication means is connected, and this is notified to the outside.
[0037]
Therefore, according to this shift position control device, when an abnormality occurs in one of the two communication lines to which the first communication means and the second communication means are connected, the communication line is communicated to the driver or the like. It is possible to prompt inspection and repair of the network constructed using the network, and it is possible to prevent both of the two systems of networks constructed by each communication line from failing and being unable to switch the shift position.
[0038]
  Also,Claim 15The shift position control device described inClaim 12 or Claim 14Provided with reliability determination means, and when the same type of data is received by the first communication means and the second communication means by the operation of the reliability determination means, the reliability of each data is determined. Thus, highly reliable data is set as data used by the calculation means for calculating the optimum shift position.
[0039]
Therefore, according to this shift position control apparatus, even if there is an error in one of the data acquired via the two communication lines to which the first communication means and the second communication means are connected, there is no error and normal The shift position switching control can be executed using the data, and the reliability of the ShiftByWire system can be further improved.
[0040]
  As a means for determining reliability,Claim 16As described in the above, the reliability of the received data is determined based on at least one of the data reception period, the continuity of the data content from the data received in the past, and the validity of the data content. do it.
[0041]
  That is, as described above, when the data reception cycle is different from normal, when the data received this time has not changed continuously from the data received in the past, or when the data content is different from the normal time Is considered to have some abnormality in the received data.Claim 16If it is configured as described above, the reliability of the received data can be accurately determined by the operation of the reliability determination means.
[0042]
  By the way, the present invention (Claims 12 to 16In the shift position control device (1), the calculating means obtains the optimum shift position of the transmission, and the shift position switching means switches the shift position of the transmission so that the shift position of the transmission becomes the optimum shift position. For example, when an abnormality such as a disconnection occurs in the transmission path of the shift position switching command output from the computing means to the shift position switching means (that is, a signal line in the shift position control device), or the computing means itself is malfunctioning. If this occurs, the shift position of the transmission cannot be switched even if the communication line (network) to which the communication means is connected functions normally.
[0043]
  Therefore, in order to prevent such a problem, the shift position control device isClaim 17 or Claim 18It is good to be configured as described in.
  That is,Claim 17In the shift position control apparatus described above, second receiving means for receiving data via the second communication line is provided, and the calculating means sends a shift position switching command corresponding to the calculation result of the optimum shift position to the shift position. In addition to outputting to the switching means, the shift position switching command is converted into transmission data and transmitted from the second communication means onto the second communication line.
[0044]
Further, the shift position switching means normally switches the shift position of the transmission in accordance with the shift position switching command input from the calculating means, and the shift position switching command is not input from the calculating means, and the second receiving means switches the shift position. When data representing the command is received, the shift position of the transmission is switched in accordance with the shift position switching command received by the second receiving means.
[0045]
  As a result,Claim 17According to the described shift position control device, an abnormality occurs in the transmission path of the shift position switching command output from the computing means to the shift position switching means, and the shift position switching command is directly output from the computing means to the shift position switching means. Even if it is not possible, the shift position switching command from the calculation means is transmitted to the shift position switching means via the second communication means-second communication line-second reception means, and the shift position switching means The shift position of the transmission can be switched in accordance with the shift position switching command from the means.
[0046]
  on the other hand,Claim 18In the described shift position control device,Claim 17As described, second receiving means for receiving data via the second communication line is provided, and the shift position switching means monitors the operating state of the calculating means, and the operation of the calculating means is abnormal. In this case, the shift position of the transmission is switched according to the data representing the shift position command received from the shift position command detection device received by the second communication means.
[0047]
  Therefore,Claim 18According to the described shift position control device, even when the calculation means does not function normally, the shift position switching means is operated by the shift position command in the path of the shift position command detection device-second communication line-second reception means. The shift position of the transmission can be switched in accordance with the shift position command transmitted from the detection device.
[0048]
  Therefore,Claim 17 and Claim 18According to the described shift position control device, it is possible to prevent the shift position of the transmission from being switched due to a failure of the shift position control device itself, and to further improve the reliability of the ShiftByWire system.
[0049]
  still,Claim 17Described invention andClaim 18Each of the described inventions may be carried out independently,Claims 12 to 16The shift position control device described in any of the above may be applied simultaneously.
  That meansClaims 12-16The shift position control device according to any one of the above is provided with a second receiving means for receiving data via the second communication line, and the calculation means is provided with a shift position switching command corresponding to the calculation result of the optimum shift position. The shift position switching command is converted into transmission data and transmitted from the second communication means onto the second communication line, and the shift position switching means is normally input from the calculation means. The shift position of the transmission is switched in accordance with the shift position switching command. When the shift position switching command is not input from the calculation means and data representing the shift position switching command is received by the second receiving means, the second receiving means The shift position of the transmission is switched in accordance with the shift position switching command received by, and the operation state of the calculation means is monitored, and the operation of the calculation means is abnormal. Expediently, according to the data representing the shift position command from the shift position command detecting device in which the second communication unit receives, it may be configured to switch the shift position of the transmission.
[0050]
  And if you do this,Claim 17Described invention andClaim 18The reliability of the ShiftByWire system can be further improved as compared with the case where the described invention is implemented independently.
  Next, the present invention (Claims 12 to 18) Shift position control device of the automatic transmission according to the shift position command input by the driver operating the operation unit, such as drive "D", back "R", neutral "N" shift It can be applied to a shift position control device for an automatic transmission that switches to a position, or can be applied to a shift position control device for a manual transmission that switches a shift position (shift stage) of a manual transmission according to a shift position command. However, especially when applied to a shift position control device for an automatic transmission,Claim 19It may be configured as described.
[0051]
  That is,Claim 19In the shift position control apparatus described, the received data received by both or one of the first communication means and the second communication means when the calculation means is a shift position where the current shift position of the automatic transmission is variable. The optimum gear position of the automatic transmission is calculated on the basis of the data representing the driving state of the vehicle obtained from the above, and the optimum gear calculated by the calculating means is further calculated by calculating the gear position of the automatic transmission. Gear position switching means for switching to a position is provided.
[0052]
  That is, thisClaim 19The shift position control device described has a function as a shift control device that performs shift control of the automatic transmission according to the driving state of the vehicle, and the shift position control device that constitutes the ShiftByWire system in the conventional shift control device Are integrated.
[0053]
If the shift position control device is configured in this way, it is possible to suppress an increase in the number of electrical devices constituting the vehicle drive system in constructing the ShiftByWire system in a vehicle equipped with an automatic transmission. Workability at the time of constructing a communication system can be improved.
[0054]
  If the shift position control device and the shift control device are integrated in this way, the calculation processing executed by the calculation means becomes complicated, and the number of signal lines wired in the device also increases.Claim 17 or Claim 18It is desirable to apply the described invention to ensure the reliability of the ShiftByWire system.
[0055]
On the other hand, in the shift operation of the shift position of the automatic transmission, when the operation unit is operated to the parking “P” position for instructing parking of the vehicle, the shift position of the automatic transmission is locked and There is a so-called P-lock that prohibits rotation of the power transmission system to the drive wheel side. This P-lock may be performed by a shift position control device, and shift control separate from the shift position control device. It may be performed by a device, or a control device dedicated to P-lock may be provided separately.
[0056]
In this case, similarly to the shift position control device, the P lock control device is connected to two communication lines (the first communication line and the second communication line) and transmitted as a shift position command from the shift position command detection device. It is desirable that the parking position command to be transmitted is transmitted to the P lock control device.
[0057]
Further, the shift position control device receives data representing the latest shift position of the transmission switched by the shift position switching means from the first communication means or the first communication means and the second communication means to other electric power. It is desirable to provide shift position information transmission control means for transmitting to the target device.
[0058]
In this way, the shift position of the transmission can be notified to other electrical devices such as the engine control device and the shift control device that constitute the vehicle drive system communication system. The reliability of the control to be performed can be improved.
[0059]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a schematic configuration diagram showing a configuration of a vehicle drive system communication system to which the present invention is applied.
[0060]
As shown in FIG. 1, the communication system of this embodiment includes an engine control device (engine ECU) 12 that controls an engine (E / G) 2 that is a power source of a vehicle (automobile in this embodiment), an engine 2 Conventionally, a transmission control device (transmission ECU) 14 that switches a transmission gear ratio (in other words, a transmission gear position) of an automatic transmission (A / T) 4 that transmits power from the vehicle to a driving wheel in accordance with a driving state of the vehicle. It is composed of an electrical device provided in the vehicle drive system and a shift position command detection device 20, a shift position control device 40, a P lock control device 60, a shift lock control device 62, and the like that constitute the ShiftByWire system. Yes.
[0061]
These devices are connected to each other by a communication line Ln dedicated to data communication and a power line Ld that supplies power to each device from a battery (not shown). In the communication system of this embodiment, the communication line Ln Is used as the first communication line of the present invention to transmit / receive all data between the devices, and the power line Ld is used as the second communication line of the present invention to transmit / receive data between the devices. Among them, only important data set in advance is transmitted / received (backup communication).
[0062]
Here, first, the shift position command detection device 20 detects the operation position (P, R, N, D, 1st, 2nd, etc.) of the shift lever 6 operated by the driver, and the shift switch 22. The operation position of the shift lever 6 detected by the above is taken as a shift position command of the automatic transmission 4, converted into transmission data and output at a predetermined transmission timing, and output from the data processing unit 24 The first transmission unit 26 that transmits the transmitted data to another control device configuring the communication system via the communication line Ln, and a power supply IC 30 connected to the power supply line Ld.
[0063]
Further, the power supply IC 30 takes in a DC voltage supplied from a battery (not shown) via the power supply line Ld, and removes a high frequency signal component for data communication flowing through the power supply line Ld, and passes through the filter section 32. A power supply unit 34 for generating a DC constant voltage Vcc for operating the internal circuit of the shift position command detection device 20 from the DC voltage thus generated, and a transmission signal by modulating a carrier wave according to transmission data output from the data processing unit 24 A second transmission unit (in other words, a modulation unit) 36 that generates and superimposes this on the power supply line Ld is configured.
[0064]
In this embodiment, for data communication using the communication line Ln, CAN (“Controller Area Network” proposed by Robert Bosch, Germany), which is a protocol generally used in an in-vehicle network, is used. The first transmission unit 26 uses a CAN driver.
[0065]
Then, as shown in FIG. 2, the data processing unit 24 reads the operation position of the shift lever 6 detected by the shift switch 22 (Step 100: Step is hereinafter referred to as S), and the read operation position is displayed. Transmission data is generated by giving a time stamp value indicating the current time to the shift position command data (S110), and then waits until a predetermined transmission timing at which data transmission from the device is permitted. (S120) When the transmission timing is reached, transmission data is output to the first transmission unit 26 and the second transmission unit 36 (S130), and the shift position command is detected and transmitted in a procedure such as shifting to S100 again. .
[0066]
For this reason, shift position command data is transmitted from the shift position command detection device 20 to another control device via the power line Ld and the communication line Ln. That is, the shift position command data is transmitted as important data to another control device.
[0067]
In this embodiment, the shift lever 6 corresponds to the operation unit of the present invention, the first transmission unit 26 corresponds to the first transmission unit of the present invention, and the second transmission unit corresponds to the second transmission unit of the present invention. The shift switch 22 corresponds to the detection means of the present invention, and the data processing unit 24 corresponds to the shift position command transmission control means of the present invention.
[0068]
Next, the shift position control device 40 determines the optimum shift position of the automatic transmission 4 for the shift position command data transmitted from the shift position command detection device 20, the vehicle ECU transmitted from the engine ECU 12, the transmission ECU 14, and the like. This is set based on the data representing the driving state (engine speed, vehicle speed, transmission gear position, etc.), and controls the shift position of the automatic transmission 4 in accordance with the set optimum shift position.
[0069]
That is, the shift position control device 40 calculates the optimum shift position of the automatic transmission 4 by driving the actuator drive unit 42 for driving the shift position actuator 8 and causes the actuator drive unit 42 to drive the shift position actuator 8. As a microcomputer 44 (hereinafter referred to as a microcomputer), a first transmission / reception unit 46 for performing data communication with another control device via a communication line Ln, and a power supply IC 50 connected to the power supply line Ld. ing.
[0070]
The power supply IC 50 includes a filter unit 52 for extracting a DC voltage supplied from a battery (not shown) via the power supply line Ld and a high-frequency signal component for data communication flowing through the power supply line Ld, A power source 54 for generating a DC constant voltage Vcc for operating the internal circuit of the device from the DC voltage from which the high-frequency signal component has been removed by the filter unit 52, and data communication with other control devices via the power line Ld And the second transmitter / receiver 55 generates a transmission signal by modulating a carrier wave used for data communication based on the transmission data output from the microcomputer 44. The high-frequency signal component for data communication extracted by the modulation unit 56 and the filter unit 52 that superimpose the signal on the power supply line Ld is captured and demodulated into received data And a demodulator 58. that.
[0071]
The first transmission / reception unit 46 includes a CAN driver / receiver in order to perform data communication according to the CAN protocol using the communication line Ln.
Then, the microcomputer 44 performs shift position control according to the procedure shown in FIG. 3, and further acquires data transmitted from the other control device to the shift position control device 40 according to the procedure shown in FIG. Hereinafter, each of these control processes will be described.
[0072]
As shown in FIG. 3, in the shift position control process, first, in S200, the shift position command data from the shift position command detection device 20 acquired in the data reception process (FIG. 4) described later is read, and in the subsequent S210. Then, data representing the driving state of the vehicle acquired from other control devices such as the engine ECU 12 and the transmission ECU 16 in the data receiving process described later is read. In the subsequent S220, the optimum shift position of the automatic transmission 4 is calculated based on the data read in S200 and S210, and in the subsequent S230, it is determined whether or not the current shift position is the optimum shift position. Thus, it is determined whether or not the shift position of the automatic transmission 4 needs to be changed.
[0073]
If the current shift position is different from the optimum shift position and the shift position of the automatic transmission 4 needs to be changed, the shift position actuator 8 is driven via the actuator drive unit 42 in S240. After the shift position of the automatic transmission 4 is controlled to the optimum shift position, the process proceeds to S250. Conversely, if it is not necessary to change the shift position of the automatic transmission 4, the process proceeds to S250 as it is.
[0074]
In S250, in order to transmit the current shift position of the automatic transmission 4 to another control device, transmission data in which a time stamp value indicating the current time is added to the current shift position is generated. It waits until a predetermined transmission timing at which data transmission from the apparatus is permitted.
[0075]
Then, at the transmission timing, it is determined in S270 whether or not the transmission data to be transmitted this time is important data set in advance. If the transmission data is important data, the second transmission / reception unit in S280. After the transmission data is output to 55 (specifically, the modulation unit 56), the process proceeds to S290. On the contrary, if the transmission data is not important data, the process proceeds to S290. In S290, the transmission data is output to the first transmission / reception unit 46, and the process proceeds to S200 again.
[0076]
For this reason, if the transmission data generated in S250 is important data, the transmission data is transmitted from the shift position control device 40 to another control device via the power supply line Ld and the communication line Ln. If the data is not important data, the transmission data is transmitted to another control device via the communication line Ln.
[0077]
In the present embodiment, the transmission data immediately after the shift position of the automatic transmission 4 is switched by the processing of S240 among the transmission data generated in S250 is set as important data, and only this transmission data is set. Is transmitted to another control device via a two-system network including the power supply line Ld and the communication line Ln.
[0078]
Next, the data reception process shown in FIG. 4 is executed when transmission data from another device is received by either the first transmission / reception unit 46 or the second transmission / reception unit 55 (specifically, the demodulation unit 58). It is processing.
When this data reception process is started, first, in S310, it is determined whether or not there is reception data in the first transmission / reception unit 46. If there is reception data in the first transmission / reception unit 46, in S320, 1 Received data is acquired from the transmitter / receiver 46, and in S330, it is determined whether or not the received data is important data.
[0079]
If the received data is not important data, the process proceeds to S380. Conversely, if the received data is important data, in S340, the reception cycle of the received data and the continuity of the data contents from the past received data are obtained. Then, the reliability of the received data is checked by checking the validity of the data contents, and the process proceeds to S350.
[0080]
In S350, based on the result of checking the reliability of the received data in S340, it is determined whether the received data is highly reliable normal data. If the received data is normal, the process proceeds to S360, where the received data is stored in the memory area M1 in the microcomputer 44, and the flag F1 for temporarily storing the reliability check result is set. If the received data is not normal, the process proceeds to S380 after resetting the flag F1 in S370.
[0081]
Note that the flag F1 and a flag F2, which will be described later, are initialized to a reset state at the start of the data reception process.
Next, in S380, it is determined whether there is received data in the second transmission / reception unit 55. If there is reception data in the second transmission / reception unit 55, the reception data is acquired from the second transmission / reception unit 55 in S390, and in S400, the reception cycle of the reception data, the data contents from the past reception data, The reliability of the received data is checked by checking the continuity and the validity of the data contents, and the process proceeds to S410.
[0082]
In S410, based on the result of checking the reliability of the received data in S400, it is determined whether the received data is normal data with high reliability. If the received data is normal, the process proceeds to S420. The received data is stored in the memory area M2 in the microcomputer 44 and the flag F2 is set. Then, the process proceeds to S440. Conversely, if the received data is not normal, the flag F2 is reset in S430, and then S440. Migrate to
[0083]
In S440, it is determined whether or not the reception data received this time by one or both of the first transmission / reception unit 46 and the second transmission / reception unit 55 is important data. If the received data is not important data (in other words, if data other than the important data is received by the first transmitter / receiver 46), the process proceeds to S450, and the check code given to the received data (E.g. CRC) is used to determine whether received data is normal. If it is normal, the received data is stored as data used for control. After receiving data is normally determined and stored, the process ends. To do.
[0084]
On the other hand, if it is determined in S440 that the received data is important data, it is determined in S460 whether or not the flag F1 is set. If the flag F1 is set, the important data received by the first transmission / reception unit 46 is normal. In S460, the data is read from the memory area M1 and stored as important data used for control. After that, the process ends.
[0085]
Next, in S460, when it is determined that the flag F1 is in the reset state, that is, the important data has not been received by the first transmission / reception unit 46, or has been received by the first transmission / reception unit 46. If there is an abnormality in the important data, it is determined in S480 whether or not the flag F2 is set. If the flag F2 is set, the important data received by the second transmission / reception unit 55 is normal. In S490, the data is read from the memory area M2 and stored as important data used for control. Then, the process proceeds to S510.
[0086]
If it is determined in S480 that the flag F2 is not set, since the important data received this time is abnormal, the process proceeds to S500, and the important data received this time is preset in the data. After setting the default value that has been set or the data value obtained at the previous normal reception, the process proceeds to S510.
[0087]
In S510, since an abnormality has occurred in the network configured at least by the communication line Ln, the fact that the vehicle occupant has noticed this is indicated by lighting of a warning lamp provided in the passenger compartment or generation of an alarm sound. The communication abnormality warning process to notify is executed, and the process ends.
[0088]
As described above, in the shift position control device 40, if data from another device is received by one or both of the first transmission / reception unit 46 and the second transmission / reception unit 55 and the received data is important data, S330, S390 Then, by checking the reliability of the received data, it is determined whether the received important data is normal or not, and the important data determined to be normal is adopted as data used for control.
[0089]
If it is determined by the reliability check of the received data that the received important data is not normal, a default value or a previous value is set as the important data received this time, and at least by the communication line Ln. When communication failure of important data has occurred, the passenger is notified of this.
[0090]
As a result, the shift position command data transmitted from the shift position command detection device 20 to the shift position control device 40 via the two networks is not received on the shift position control device 40 side. In the control device 40, the shift position of the automatic transmission 4 can be controlled according to the shift position command input by the driver by operating the shift lever 6.
[0091]
Therefore, according to the present embodiment, the reliability of the ShiftByWire system configured by the shift position command detection device 20 and the shift position control device 40, and thus the safety of the vehicle can be ensured.
In this embodiment, the first transmitter / receiver 46 corresponds to the first communication means of the present invention, the second transmitter / receiver corresponds to the second communication means of the present invention, and the microcomputer 44 corresponds to the arithmetic means of the present invention. The actuator driver 42 corresponds to the shift position switching means of the present invention. Of the processes executed by the microcomputer 44, the process of S510 corresponds to the communication abnormality notification means of the present invention, and the processes of S330 and S440 correspond to the reliability determination means of the present invention.
[0092]
Next, when the parking position command indicating the operation position “P” of the shift lever 6 is transmitted from the shift position command detection device 20 as the shift position command data, the P lock control device 60 is transmitted to the engine ECU 12 or the transmission ECU 14. If it is possible to lock the shift position of the automatic transmission 4 based on the driving state of the vehicle (engine speed, vehicle speed, transmission gear position, etc.) transmitted from the For example, the shift position of the automatic transmission 4 is locked by driving a P-lock actuator 10 provided in the automatic transmission 4.
[0093]
The P lock control device 60 is configured in the same manner as the shift position control device 40, and performs a P lock control by a microcomputer in substantially the same procedure as the shift position control process shown in FIG. The data reception process is performed in the same procedure as the data reception process shown.
[0094]
That is, in the P lock control device 60, the actuator to be controlled is different from the shift position control device 40, and the drive conditions of the actuator are different. Therefore, the processing contents executed in S220 to S250 shown in FIG. However, the procedure for transmitting / receiving data to / from other devices is performed in the same manner as the shift position control device 40.
[0095]
Further, the shift lock control device 62 fixes (shift lock) the shift lever 6 to the “P” position via the shift lock actuator 11 when the shift lever 6 is operated to the “P” position. The start of the vehicle due to an erroneous operation of the shift lever 6 is prevented.
[0096]
The shift lock control device 62 is configured in the same manner as the shift position control device 40 and the P lock control device, and performs data reception processing in a procedure substantially similar to the data reception processing shown in FIG. When it is detected in the data reception process that the parking position command indicating the operation position “P” of the shift lever 6 is transmitted from the shift position command detection device 20, the shift lock actuator 11 is driven to move the shift lever 6 to “ Shift-lock to the “P” position. The shift lock is released, for example, when the driver depresses the brake pedal (in other words, when the vehicle does not start without permission even when the shift lock is released).
[0097]
Therefore, according to the present embodiment, the same reliability as the shift position control by the shift position control device 40 can be obtained for the P lock control by the P lock control device 60 and the shift lock control by the shift lock control device 62. Thus, the safety of the vehicle can be ensured.
[0098]
The electrical devices that are not directly related to the ShiftByWire system, such as the engine ECU 12 and the transmission ECU 14, are basically configured in the same manner as in the prior art. However, in this embodiment, each of these units also includes a shift position control device. The first transmission / reception unit 46 and the power supply IC 50, which are the same as those in 40, are incorporated, and important data can be transmitted and received using a two-system network composed of the communication line Ln and the power supply line Ld. .
[0099]
For this reason, according to the present Example, the reliability of the data communication between each electric apparatus can be improved compared with the communication system of the conventional vehicle drive system constructed | assembled by the network of 1 system | strain.
As mentioned above, although one Example of this invention was described, this invention is not limited to the said Example, It can take a various aspect.
[0100]
For example, in the above embodiment, in the shift position control device 40, the actuator driving unit 42 is described as simply driving the shift position actuator 8 in accordance with the shift position switching command directly input from the microcomputer 44. As shown, a second receiving unit 76 that receives data transmitted via the power supply line Ld is provided in the actuator driving unit 42, and when the shift position switching command is not input from the microcomputer 44, In the case of runaway, the actuator driving unit 42 may directly drive the shift position actuator 8 based on the data received by the second receiving unit 76.
[0101]
That is, the actuator drive unit 42 of the shift position control device 40 ′ shown in FIG. 5 includes a detection signal from the current sensor 84 that detects the current flowing in each phase winding of the three-phase motor constituting the shift position actuator 8, and Based on the drive data of the shift position actuator 8 input from 44, an inverter 72 for controlling the current flowing in each phase winding of the three-phase motor, a serial communication unit 74 for fetching drive data from the microcomputer 44, a power supply A filter unit 75 for extracting a high-frequency signal component for data communication from the line Ld, a shift position command data transmitted from the shift position command detection device 20, and a second transmitter / receiver 55 and a filter unit 52 from the microcomputer 44. Drive data of the shift position actuator 8 sent onto the power line Ld via the filter unit 75 and the power supply. A second receiving unit 76 that receives the signal via the line Ld; a selector 78 that selects one of the drive data input from the serial communication unit 74 and the received data from the second receiving unit 76 and inputs the selected data to the inverter 72; Is provided.
[0102]
On the other hand, when executing the shift position control in S240 shown in FIG. 3, the microcomputer 44 not only transmits drive data as a shift position switching signal to the actuator drive unit 42 but also transmits the drive data to the second transmission / reception unit. The drive data is transmitted to the power line Ld from the second transmission / reception unit 55 via the filter unit 52 by outputting to the power line Ld.
[0103]
In the actuator drive unit 42, the selector 78 monitors the runaway of the microcomputer 44 based on a signal (for example, a watchdog timer signal or a time stamp signal) periodically output from the microcomputer 44 for the runaway monitoring. When the runaway of the microcomputer 44 is detected, the drive data input path to the inverter 72 is switched from the serial communication unit 74 side to the second reception unit 76 side, and the shift position command detection device 20 received by the second reception unit 76 is switched. Is input to the inverter 72 as drive data for the shift position actuator 8.
[0104]
The selector 78 also provides an input path for drive data to the inverter 72 even when the microcomputer 44 has not runaway and no drive data is transmitted from the microcomputer 44 to the serial communication unit 74 for a predetermined time. Then, switching from the serial communication unit 74 side to the second reception unit 76 side is performed. In this case, the selector 78 selects the driving data from the microcomputer 44 received by the second receiving unit 76 and inputs the driving data to the inverter 72.
[0105]
As a result, according to the shift position control device 40 ′ shown in FIG. 5, even if the microcomputer 44 runs away or an abnormality occurs in the drive data transmission path from the microcomputer 44 to the serial communication unit 74, The shift position actuator 8 can be driven according to the shift position command data from the detection device 20 or the drive data generated by the microcomputer 44, and the shift position control device 40 'and the shift position command detection device 20 are configured. The reliability of the ShiftByWire system can be further improved.
[0106]
In FIG. 5, when the microcomputer 44 outputs important data to the first transmission / reception unit 46 and the second transmission / reception unit 55, the determination unit 70 transmits and receives the important data transmitted by the transmission / reception units 46 and 55. This is for determining whether or not important data is normally output from the microcomputer 44 to each of the transmitting and receiving units 46 and 55 by directly taking in from the units 46 and 55 and comparing the important data.
[0107]
When the determination unit 70 determines that the important data captured from the transmission / reception units 46 and 55 do not match, the microcomputer 44 outputs the abnormality notification data indicating that fact and the important data is output normally. To the other transmission / reception unit 46 or 55 to notify the other device of the fact, and to notify the vehicle occupant of the fact by turning on a warning lamp or generating a warning sound provided in the passenger compartment. Inform.
[0108]
Next, in the above embodiment, the shift position control device 40 and the transmission ECU (transmission control device) 14 are described as being configured separately and individually connected to the communication line Ln and the power supply line Ld. However, as shown in FIG. 6, in the shift position control device 40 ″, a drive unit 90 for driving a shift control actuator 94 provided in the automatic transmission 4 is provided and also provided in the automatic transmission 4. If the detection signal from the sensor 92 is input to the microcomputer 44 and the microcomputer 44 executes control processing for shift position switching and control processing for shift control, the shift position control device 40 and a transmission ECU (transmission control device) 14 are integrated to construct a ShiftByWire system in a vehicle equipped with an automatic transmission. Reduce the number of stem components (electrical apparatus), it is possible to improve the workability in assembling the communication system to the vehicle.
[0109]
Similarly, in the above embodiment, the shift position control device 40 and the P lock control device 60 have been described as being configured separately, but the P lock control device 60 is integrated with the shift position control device 40. Or may be integrated with the transmission ECU 14, or all of them may be integrated.
[0110]
The second receiving unit 76 shown in FIGS. 5 and 6 corresponds to the second receiving unit of the present invention, and the driving unit 90 shown in FIG. 6 corresponds to the gear position switching unit of the present invention.
[Brief description of the drawings]
FIG. 1 is a configuration diagram illustrating a schematic configuration of a vehicle drive system communication system according to an embodiment.
FIG. 2 is a flowchart showing a shift position command detection / transmission process executed by a shift position command detection device.
FIG. 3 is a flowchart showing a shift position control process executed by the shift position control device.
FIG. 4 is a flowchart showing a data reception process executed by the shift position control device.
FIG. 5 is a configuration diagram illustrating another modification of the shift position control device.
FIG. 6 is a configuration diagram showing a device configuration when a shift position control device and a transmission ECU are integrated.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 2 ... Engine, 4 ... Automatic transmission, 6 ... Shift lever, 8 ... Shift position actuator, 10 ... P lock actuator, 11 ... Shift lock actuator, 12 ... Engine ECU, 14 ... Transmission ECU, 20 ... Shift position command detection device , 22 ... shift switch, 24 ... data processing unit, 26 ... first transmission unit, 30, 50 ... power supply IC, 32, 52, 75 ... filter unit, 34, 54 ... power supply unit, 36 ... second transmission unit, 40 ... Shift position control device, 42 ... Actuator drive unit, 44 ... Microcomputer, 46 ... First transmission / reception unit, 55 ... Second transmission / reception unit, 56 ... Modulation unit, 58 ... Demodulation unit, 60 ... P lock control device, 62 ... Shift Lock control device, 70 ... determination unit, 72 ... inverter, 74 ... serial communication unit, 76 ... second receiving unit, 78 ... selector, 84 ... current sensor Service, 90 ... drive unit.

Claims (19)

A shift position command detection device that is provided in an operation unit for commanding the shift position of the transmission by an external operation and detects a shift position command input from the operation unit;
A shift position control device that sets an optimal shift position suitable for the vehicle from the shift position command detected by the shift position command detection device and the driving state of the vehicle, and switches the shift position of the transmission to the optimal shift position; ,
A network is constructed by connecting various electrical devices of a vehicle drive system including the above to each other via a first communication line for data communication ,
At least the shift position control device is connected to the shift position command and the driving state of the vehicle necessary for the shift position control via the first communication line by data communication using the network. A vehicle drive system communication system that can be obtained from other electrical devices including a position command detection device,
The various electrical devices are further connected to each other by a second communication line different from the first communication line,
At least the shift position command detection device sends the shift position command to the first communication line and the other electrical device including the shift position control device connected to each other via the communication lines. A vehicle drive system communication system, wherein transmission is performed in two systems via a second communication line. The second communication line is a communication line for transmitting and receiving important data including the shift position command, and electrical devices other than the shift position command detection device are connected to each other via the communication lines. Of the transmission data to be transmitted to another electrical device, important data set in advance is transmitted in two systems via the first communication line and the second communication line, and the other data is the first data. 2. The vehicle drive system communication system according to claim 1, wherein transmission is performed via a communication line.   The first communication line is a communication line dedicated to data communication, and the second communication line is a power line wired to a vehicle in order to supply power to each electrical device from an in-vehicle power source. A vehicle drive system communication system according to claim 1 or 2. When each of the electrical devices receives data on only one communication line when the data to be transmitted using both the first communication line and the second communication line is received only on the other communication line, The vehicle drive system communication system according to any one of claims 1 to 3 , wherein it is determined that there is an abnormality in the communication system, and the fact is notified to the outside. When each of the electrical devices receives data transmitted using both the first communication line and the second communication line, the electrical device determines the reliability of each data, and outputs the highly reliable data. The vehicle drive system communication system according to any one of claims 1 to 4 , wherein the communication system is employed as reception data. Each of the electrical devices determines the reliability of the received data based on at least one of a data reception cycle, continuity of data content from previously received data, and validity of the data content. vehicle powertrain communication system according to claim 5, characterized in that.   The vehicle drive system electrical devices connected to each other via the communication lines include an engine control device that controls an engine that is a power source of the vehicle, and an automatic transmission that transmits power from the engine to drive wheels. The vehicle drive system communication system according to any one of claims 1 to 6, further comprising a shift control device that switches a gear ratio in accordance with a driving state of the vehicle.   The shift position control device uses the engine speed, the vehicle as data representing the driving state of the vehicle. The speed and the speed change gear position are acquired from the engine control device and the speed change control device, and an optimum shift position of the transmission is set based on the acquired data and the shift position command. The vehicle drive system communication system described.   When the shift position command detection device transmits a shift position command to another electrical device including the shift position control device, the shift position command detection device generates transmission data in which a time stamp value indicating the current time is added to the shift position command. 9. The vehicle drive system communication system according to claim 1, wherein the transmission data is transmitted in two systems via the first communication line and the second communication line. . A shift position command detection device used in a vehicle drive system communication system according to any one of claims 1 to 9 ,
First transmission means for transmitting data to another electrical device connected to the first communication line via the first communication line;
Second transmission means for transmitting data to another electrical device connected to the second communication line via the second communication line;
Detecting means for detecting a shift position command input from the operation unit;
Converting the detected shift position command at the detecting means to transmit data, the transmission data, which are connected at a predetermined transmission timing, the respective communication line from said first transmitting means and the second transmission means other Shift position command transmission control means for transmitting to the electrical device ,
A shift position command detection device comprising:   11. The shift position according to claim 10, wherein the shift position command transmission control unit generates the transmission data by adding a time stamp indicating a current time to the shift position command detected by the detection unit. Command detection device. A shift position control device used in the vehicle drive system communication system according to any one of claims 1 to 9 ,
First communication means for transmitting and receiving data via the first communication line;
Second communication means for transmitting and receiving data via the second communication line;
From the received data received by both or one of the first communication means and the second communication means, data indicating the shift position command and the driving state of the vehicle is acquired, and based on the acquired data, an optimum transmission is obtained. A computing means for computing the shift position;
Shift position switching means for switching the shift position of the transmission to the optimum shift position calculated by the calculation means;
A shift position control device comprising: The calculation means acquires the engine speed, the vehicle speed, and the transmission gear position as data representing the driving state of the vehicle from the engine control device and the transmission control device connected to the communication line, and the acquired data and the shift 13. The shift position control device according to claim 12, wherein an optimum shift position of the transmission is calculated based on the position command . When data to be transmitted using both the first communication line and the second communication line is received only by one of the first communication means and the second communication means, the other communication means is connected. A communication abnormality notification means for determining that there is an abnormality in the communication system on the communication line, and notifying the outside to that effect,
The shift position control device according to claim 12 or 13, further comprising: When the same type of data is received by the first communication unit and the second communication unit, the reliability of each data is judged, and the data having high reliability is calculated by the calculation unit for the calculation of the optimum shift position. Reliability determination means set as data to be used;
The shift position control device according to any one of claims 12 to 14, further comprising: The reliability determination means determines the reliability of the received data based on at least one of a data reception cycle, continuity of data contents from previously received data, and validity of data contents. The shift position control device according to claim 15, wherein Comprising second receiving means for receiving data via the second communication line;
The calculation means outputs a shift position switching command corresponding to the calculation result of the optimum shift position to the shift position switching means, converts the shift position switching command into transmission data, and transmits the shift position switching command from the second communication means to the second communication means. 2 Send on the communication line,
The shift position switching means normally switches the shift position of the transmission according to the shift position switching command input from the calculation means, and the shift position switching command is not input from the calculation means. when data by the receiving means represents the shift position switching command is received, in accordance with the shift position switching command received by said second receiving means, according to claim 12, characterized in that for switching the shift position of the transmission The shift position control device according to any one of claims 16 to 16 . Comprising second receiving means for receiving data via the second communication line;
The shift position switching means monitors the operating state of the calculating means, and if there is an abnormality in the operation of the calculating means, the shift position command is received from the shift position command detecting device received by the second communication means. The shift position control device according to any one of claims 12 to 16 , wherein the shift position of the transmission is switched in accordance with data to be represented. The transmission is an automatic transmission;
When the current shift position of the automatic transmission is a shift position at which shifting is possible, the calculation means is a vehicle information acquired from received data received by both or one of the first communication means and the second communication means. Based on the data representing the driving state, it is configured to calculate the optimum gear position of the automatic transmission,
Furthermore, the gear position of the automatic transmission, according to any one of claims 12 to claim 18, comprising the gear position switching means for switching to the calculated optimum gear position at said computing means Shift position control device.

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