FR3037182A1 - DEVICE AND METHOD FOR THE ANALYSIS OF DATA FRAMES EXCHANGED BETWEEN A FIRST AND A SECOND EQUIPMENT - Google Patents

Abstract

A device (100) for analyzing data frames exchanged between a first and second equipment, the data comprising unidirectionally flowing video data and non-video data flowing bidirectionally, said device (100) having a deserializer (101) adapted to convert the data frames from an input (104) to a video signal and a non-video signal, characterized in that it further comprises a serializer (102) capable of converting the video signal and the non-video signal into transmitted data frames to a first output (105), the non-video signal being further transmitted to a second output (106).

Description

The invention relates to digital links in particular of the "LVDS" type, which stands for "Low Voltage Differential Signaling". The invention relates more particularly to the testing and validation of such links. It is known from the prior art so-called bidirectional LVDS links. A bi-directional LVDS link enables two nodes to be connected and to carry video data and non-video data on the other. Video data is carried unidirectionally while non-video data is transported bidirectionally. The bidirectional transmission of non-video data frames is done according to a communication protocol which is defined by characteristics, such as the action that is performed by the master member consecutively upon receipt of a so-called non-video data frame. reading. It is currently very difficult, if not impossible, to verify whether an organ is actually able to take into account (or "consume") the information transmitted according to the defined communication protocol, including during the initialization phase of the organs. As a result, it is not possible to guarantee compliance with certain requirements of the communication network. For example, when a slave unit transmits a read frame to a master member, it can not be certain that the control data it contains is correctly received by this master member (for example, this read frame can be impaired). The invention is therefore particularly intended to improve the situation. It proposes more specifically for this purpose a device for the analysis of data frames exchanged between a first and a second equipment, the data comprising unidirectionally flowing video data and non-video data flowing bidirectionally, said device comprising a deserializer adapted to convert the data frames, derived from an input into a video signal and a non-video signal, characterized in that it further comprises a serializer capable of converting the video signal and the non-video signal into data frames transmitted to a first output, the non-video signal being further transmitted to a second output. The invention makes it possible to analyze the non-video data exchanged between a master node and a slave node. This data is extracted from the frames and made available from a device via the second output. Advantageously, the device for analyzing data frames according to the invention further comprises a processor configured to convert the non-video signal into an output signal transmitted to the second output. The use of a processor makes it possible to convert the non-video signal into a format directly readable by an external equipment.

Advantageously, the processor comprises time measuring means configured to date the reception of the frames by said device, the frame reception dates being transmitted to the second output. By dating the arrival of the data frames, the invention facilitates the analysis of the exchanges between the nodes and makes it easier to detect errors. According to a characteristic of the invention, the processor is an electronic card comprising a microcontroller. The use of a microcontroller makes it easy to program the device according to the invention. Advantageously, the deserializer comprising a first transmitter, the electronic card comprises at least a first input port connected to said first transmitter. Advantageously, the serializer comprising a second transmitter, the electronic card comprises at least a second input port connected to said second transmitter.

The input ports of the card allow the microcontroller to retrieve the non-video signals and thereby convert them before transmitting an output signal to the second output.

Advantageously, the device for the analysis of data frames according to the invention comprises at least one input, called all or nothing, able to transmit to the processor an all or nothing signal. The all-or-nothing input allows additional equipment to be connected to the device and to record and date events related to this device. This input can for example be connected to a power supply of the master node and thus makes it possible to know when the master node is powered up. This feature is useful for determining the time between powering on a node and the first data frame sent by that node (node initialization time). Advantageously, the device for the analysis of data frames according to the invention further comprises means for modifying the format of the frames and means for modifying the transmission speed of the non-video signals. The invention can be used with different data frame formats and different data transmission rates. The invention also relates to a method for the analysis of data frames implemented by a frame analysis device according to one of the preceding claims, characterized in that it comprises steps of: - Deserialization of at least one data frame, received from the first input, into a video signal and a non-video signal, - transmitting the video signal to the serializer, and the non-video signal to the serializer on the one hand and the second output, on the other hand, - Serialization of the video signal and the non-video signal in at least one data frame, 25 - Transmission of the data frame to the second output. Advantageously, the method according to the invention further comprises a step of dating the reception of the frames by said device. Other features and advantages of the invention will become apparent upon examination of the following detailed description, and the accompanying drawings, in which: FIG. 1 shows a functional diagram of a device for frame analysis data according to the invention; FIG. 2 is a flowchart of the method for the analysis of data frames according to the invention. The attached drawings may not only serve to complete the invention, but also contribute to its definition, if any.

The data frame analysis device according to the invention makes it possible to analyze data frames exchanged between a first equipment item and a second item of equipment via a data link. The first device is a master node and the second device is a slave node. The transmission of data between the master node and the slave node is, for example, of the low voltage differential signaling type also known by the name LVDS (for Low Voltage Differential Signaling). It will be recalled that this type of data link makes it possible to transport video data on the one hand and non-video data on the other hand, in particular so-called functional data corresponding to parameter information of the master node or the slave node. Video data is carried unidirectionally while non-video data is transported bidirectionally. The master node is for example a computer of a motor vehicle and the slave node is a display 20 of said motor vehicle. The video data flows from the master node to the slave node. In another example, the master node is an automobile computer and the slave node is a camera. In this case, the video data flows from the slave node to the master node. It is also recalled that the master node includes a serializer capable of encoding data in the form of frames before they are transferred to the link. The slave node has a deserializer capable of decoding frames of data from the link. Communication on the data link is managed by the master node that initiates all exchanges. There are two types of non-video data transmission: transmissions from the master node to the slave node and transmissions from the slave node and the master node. With reference to FIG. 1, the device 10 according to the invention comprises a first input 104, at least a second input 107, a first output 105 and a second output 106. The first input 104 is intended to be connected to the node master (not shown). The first input 104 receives LVDS data frames from the master node. The first output 105 is intended to be connected to the slave node (not shown). The first output 105 transmits LVDS frames to the slave node. The second input 107 is intended to be connected to another equipment, for example a power supply of the master node. The second input is an all-or-nothing input for transmitting binary information. Advantageously, the device further comprises a third input 107 'of the same type as the second input 107 and also making it possible to transmit binary information. The third input 107 'makes it possible to connect another equipment. The second output 106 is intended to be connected to a terminal, in other words to a device making it possible to display the data transmitted by the second output 106. The second output 106 notably transmits information from the non-video data contained in the LVDS frames. exchanged between the master node and the slave node. In the example, the second output 106 includes a USB connector (Universal Serial Bus) but it could also be another type of connector for wired networks (Ethernet, RS 232, FireWire, etc.) or 25 an interface for wireless networks (Bluetooth, Wifi, ZigBee, ...). The device 100 according to the invention also comprises a deserializer 101 and serializer 102. The deserializer 101 is connected to the first input 104. It receives LVDS frames transmitted by this input 104. The deserializer 101 is connected to a data bus 110 The deserializer 102 includes a first receiver R1 and a first transmitter T1. The serializer 102 is connected to the first output 105. It sends 6 LVDS frames to this output 105. The serializer 102 is connected to the data bus 110. The serializer 102 includes a second receiver R2 and a second transmitter T2. The first transmitter T1 is connected to the second receiver R2. The first receiver R1 is connected to the second transmitter T2. The deserializer 101 converts the received LVDS frames into a video signal and a non-video signal. The video signal is transmitted to the serializer 102 via the data bus 110. The non-video signal is transmitted to the serializer 102 via the first transmitter T1 and the second receiver R2. The LVDS frames transmitted by the device 100 are identical to the frames it receives. Advantageously, the device 100 also comprises a processor 103 configured to convert the non-video signal into an output signal transmitted to the second output 106. In the absence the lines carrying the non-video signals are connected directly to the second output 106. The equipment connected to this output must then support the decoding of these signals. In the exemplary embodiment, the processor 103 is an electronic card comprising a microcontroller. But it could also be a programmable logic circuit (or FPGA for Field-Programmable Gate Array). The electronic card comprises at least a first input port 108 connected to the first transmitter T1 and a second input port 108 'connected to the second transmitter T2. The processor 103 comprises means for measuring the time, configured to date the reception of the frames by said device 100. The frame reception dates are transmitted to the second output 106. The device 100 thus makes it possible to associate commands encoded in non-video signals, on dates. This feature is particularly useful for validating a data transmission system implementing a master node and a slave node.

The data transmitted by the second output 106 may take the form of a text file comprising commands (transmitted on the link LVDS) associated with transmission dates. Advantageously, the device 100 according to the invention also comprises means for modifying the format of the LVDS frames and means for modifying the transmission speed of the non-video signals. It is recalled that an LVDS frame may be coded in different formats and in particular in a first format in which the frames are coded on 30 bits or in a second format in which the frames are coded on 40 bits. The device can be set to work with 30-bit or 40-bit coded frames. The non-video signals can be transmitted at different speeds and in particular at a first speed, for example 115.2 kbit / s or a second speed, for example 500 kbit / s. The device may be set to operate at transmission rates of 115.2 kbit / s or 500 kbit / s. The device 100 also comprises an electrical connection 109 between the first input 104 and the first output. The electrical link 109 makes it possible to convey current from the master node to the slave node. The slave node is powered by the master node. A portion 112 of the link 109 is made accessible to a user and can be disconnected. The accessible connection portion makes it possible, for example, to have a current probe (for example an amperometric clamp) on a link in order to measure the current flowing through it.

The portion 112 may be disconnected so as to interrupt the flow of current between the master node and the slave node so as to cause power interruption of the slave node. These features are particularly useful during validation tests. The invention also relates to a method for analyzing data frames. With reference to FIG. 2, the method according to the invention comprises a deserialization step 21, by the deserializer 101, of at least one data frame, transmitted by the first input 104. The LVDS frame is converted into a video signal and in a non-video signal (deserialization step 22). Then, the deserializer 101 transmits the video signal to the serializer 102. The deserializer 101 also transmits the non-video signal to the serializer 102 on the one hand and to the second output 106 on the other hand. Serializer 102 converts the video signal and non-video signal from deserializer 101 into LVDS data frames (serialization step 23). The LVDS data frames are transmitted 24 to the second output. The method also comprises a step of dating the reception of the frames by said device 100. Advantageously, the method also comprises an intermediate step of decoding, by a processor 103, non-video signals and transmitting the decoded signals to the second output 106. The method and the device according to the invention facilitates the testing of LVDS data transmission systems comprising a master node and a slave node. The device makes it possible to retrieve on a piece of equipment the non-video data exchanged by the two nodes as well as transmission dates associated with this data. The device also advantageously makes it possible to easily test an initialization time of a node by recording a power-up date of the node (information retrieved via the second input 107) and a date corresponding to a first frame transmission by the node.

Claims (10)

REVENDICATIONS1. A device (100) for analyzing data frames exchanged between a first and second equipment, the data comprising unidirectionally flowing video data and non-video data flowing bidirectionally, said device (100) having a deserializer ( 101) adapted to convert the data frames from an input (104) into a video signal and a non-video signal, characterized in that it further comprises a serializer (102) adapted to convert the video signal and the non-video signal in data frames transmitted to a first output (105), the non-video signal being further transmitted to a second output (106). 2. Device (100) for analyzing data frames according to claim 1, characterized in that it further comprises a processor (103) configured to convert the non-video signal into an output signal transmitted to the second output (106). 3. Device (100) for the analysis of data frames according to the preceding claim, characterized in that the processor (103) comprises means for measuring the time, configured to date the reception of the frames by said device (100), the frame reception dates being transmitted to the second output (106). 4. Device (100) for the analysis of data frames according to one of claims 2 or 3, characterized in that the processor (103) is an electronic card comprising a microcontroller. 5. Device (100) for the analysis of data frames according to the preceding claim, characterized in that, the deserializer (101) comprising a first transmitter (T1), the electronic card comprises at least a first input port ( 108) connected to said first transmitter (T1). 3037182 10 6. Device (100) for analyzing data frames according to the preceding claim, characterized in that, the serializer (102) having a second transmitter (T2), the electronic card comprises at least a second input port (108 ') connected to said second transmitter (T2) 7. Device (100) for the analysis of data frames according to one of the preceding claims, characterized in that it comprises at least one input, called all or nothing, able to transmit to the processor (103) a signal all 1 o or nothing. 8. Device (100) for the analysis of data frames according to one of the preceding claims, characterized in that it further comprises means for modifying the format of the frames and means for modifying the transmission speed. non-video signals. 9. A method for analyzing data frames implemented by a frame analysis device (100) according to one of the preceding claims, characterized in that it comprises steps of: 20 - Deserialization (21) of at least one data frame, received from the first input (104), into a video signal and a non-video signal, - Transmitting (22) the video signal to the serializer (102), and the non-video signal to the serializer (102) on the one hand and the second output (106), on the other hand, 25 - Serialization (23) of the video signal and the non-video signal in at least one data frame, - Emission (24) of the data frame to the second output. 10. A method for analyzing given frames according to claim 30, characterized in that it further comprises a step of dating the reception of the frames by said device (100).