FR2876523A1 - IP ADDRESS CONFIGURATION MODULE - Google Patents

Abstract

IP address configuration module (1) for configuring a device connectable to a network, further comprising a housing (2), selection means (4), memory (12) and processor (9) , wherein the selection means (4) cooperates with the processor (9) to select and store an IP address.

Description

The invention relates to an IP address configuration module for

  configure a device that can be connected to a data network and requires a fixed IP address.

  When a workstation (or any computer device) is connected to a data network, for example an Ethernet network, an IP address is assigned to it so that any other workstation (or device) to communicate with him through the network. An IP address is a 32-bit binary value. Each octet of the address is converted to a decimal number and the numbers are separated by periods. This type of notation is the common way to express an IP address, so that users can read and write IP addresses easily. There are three IP address formats: Class A for large networks for which the address begins with a number between 0 and 127, Class B for medium-sized networks for which the address starts with a number between 128 and 191 and class C for small networks where the address begins with a number between 192 and 223.

  When a device is connected to an Ethernet network, there are two ways to determine its IP address. The first is to use a Dynamic Host Configuration Protocol (DHCP) or equivalent. In this case, the address is determined automatically by the server each time the device is powered on. This addressing mode is commonly used by PCs connected to a network. The second way is manual and fixed addressing. In this mode the address does not change after being fixed. This type of configuration is common in automatic applications that use IP addresses to connect to machines.

  Generally, the configuration of an IP address uses computer tools including specific software. The procedure then requires computer skills. In addition, in the case where a network installer must configure several devices, it is not practical to have to transport a computer from one device to another, or having to waste time turning on and off said computer between each configuration procedure.

  The object of the invention is to propose a new IP address configuration module which avoids the aforementioned drawbacks, which is easier to transport and which makes it possible, by a simpler and faster method, to configure the IP address of the IP address. a device, without having to use software.

  For this purpose, the subject of the invention is an IP address configuration module intended to configure a device that can be connected to a network, comprising a box, a selection means, a memory and a processor, characterized in that said The selection means is manipulated by the user and cooperates with the processor and the memory to select and store an IP address.

  Advantageously, the housing comprises a display screen capable of displaying the stored IP address.

  According to a feature of the invention, the module comprises an interface and is adapted to be connected by a suitable cable to a device having a compatible interface.

  Advantageously, the housing comprises a diode, said diode being able to flash to signal the end of a configuration process.

  According to a first variant, the selection means is a control wheel.

  According to a second variant, the selection means consists of switches.

  Advantageously, the memory is able to memorize the already assigned IP addresses as well as the usable IP addresses.

  According to one particular form of the invention, the module is used to configure an Ethernet serial converter.

  The invention will be better understood, and other objects, details, features and advantages thereof, will become more clearly apparent in the following detailed explanatory description, of several embodiments of the invention given as a purely illustrative and non-limiting example, with reference to the accompanying schematic drawings.

  In these drawings: FIG. 1 is a simplified perspective view of the configuration module according to the invention; Figure 2 is a simplified block diagram of the module of Figure 1; FIG. 3 is a simplified perspective view of an Ethernet serial converter; Figure 4 is a simplified view of the module according to the invention and the converter, connected together for a converter configuration procedure.

  Referring to Figure 1, there is shown a configuration module 1 which comprises a housing 2, for example of rectangular section. Said housing 2 further comprises a display screen 3 and a selection means for selecting the IP address, for example a control wheel 4.

  In the example shown, said screen 3 is disposed on a surface of the housing 2 visibly from outside the housing 2 to allow the display of the selected IP address. Four control buttons 4a, 4b, 4c and 4d, for example of rectangular shape, are arranged below the screen 3 next to each other horizontally. Each of said buttons 4a, 4b, 4c and 4d is able to act on a processor 9 to select the octet of the IP address to be modified, as will be described in detail below. This also corresponds to selecting a group of three digits if we consider the address in decimal form.

  The control wheel 4 protrudes through a wall of the housing 2. Said wheel 4 comprises a notch 5 which is adapted to be moved along a center circle arc A. When a user acts on the notch 5 to using a suitable tool, for example a screwdriver, to make it rotate B axis, said wheel 4, which is integral with the notch 5, also performs a rotation of axis B, the same direction and same angle. The rotation of the wheel 4 causes a change in the value of the IP address and the content of the display screen 3, in a manner to be described in detail below.

  2876523 4 A diode, for example an LED 6 protrudes through an opening 7 of the housing 2, said diode 6 being able to flash, for example when a configuration process is completed.

  The housing 2 also comprises a connector 8a of a serial interface 8, for example of the RS232 type, which allows the connection of the module 1 with another device having a serial interface of the same type, using a suitable cable 18 (Figure 4).

  Inside the housing, a conventional bus system 10 makes it possible to connect the processor 9, a program memory 11, a second memory 12, the display 3, the control wheel 4, the buttons 4a, 4b, 4c and 4d and the serial interface 8.

  The processor 9 is a standard processor. The memory 12 is for example EPROM type or mechanical memory type and allows the storage of the selected IP address. The memory 11 is for example of the ROM type and contains the calculation programs.

  We will now describe the principle of selection and storage of an address within the module.

  The four buttons 4a, 4b, 4c and 4d act as a selector and select the three-digit group of the address to be changed.

  When a user wants to change a group of three digits of the IP address, for example the three leftmost digits of the display screen, he presses the button 4a. In Figure 2, this group of three digits corresponds to 152. The electrical pulse generated by this pressure indicates to the processor 9 which part of the memory 12 can be modified, that is to say that in this state of the system, only the byte corresponding to the first three digits can be modified in the memory 12 by a rotation of the control wheel 4.

  In this state, when a user acts on the control wheel 4 with a suitable tool, for example a screwdriver, so that said wheel 4 performs a rotation of axis B and angle α, an electric pulse is generated in the circuit. The electrical pulse acts on the processor 9, which triggers a procedure for calculating and displaying a new IP address. The calculation step involves the processor 9, which controls the operations, the memory 11 which contains the calculation programs and the memory 12 which contains the old IP address, from which the new IP address will be calculated. . The processor 9 retrieves the IP address stored in the memory 12 and calls a program contained in the memory 11 which calculates the new value of the IP address by incrementing or decrementing, according to the direction of rotation of the wheel 4, the value of the three-digit number, which corresponds to modifying the value of some of the bits of the byte considered. This new address value is then stored in the memory 12 and replaces the old address that is erased. Simultaneously, each byte of the new address is converted into a decimal number by a program of the memory 11 and sent by the processor 9 to the display 3. Starting from this state, if a user continues to turn the wheel 4, said wheel 4 generates new pulses and module 1 continues in the same way to change the value of the first three digits of the IP address.

  When a user presses another button of the module 1, for example on the button 4b, and turns the wheel, the module modifies in the same way the value of the second group of three digits of the IP address. In Figure 2, this group of four digits corresponds to 033. We can thus obtain the chosen IP address.

  As an example, an operation of configuring a device using the module 1 will now be described. The device to be configured is an Ethernet serial converter 13, which is represented in FIG. 3.

  A converter is a device that allows computer tools not using the same communication protocol to communicate.

  The converter 13 comprises several serial interface connectors using different protocols, for example two RS 232 connectors designated by the reference 14 and an RS 485 connector designated by the reference 15. The converter 13 further comprises an Ethernet connection connector 10 / 100 Mb 19. The converter 13 comprises a power connector 16 and several LEDs 17 that allow a quick display of the state of said converter 13. In addition, the converter comprises a button 16a which allows to turn it on.

  2876523 6 Such a converter, as well as any device to be connected to a network, must have its own IP address.

  We will now describe the steps of the configuration of the IP address of the converter 13 using the module 1, starting from a state in which the converter 13 is off.

  The first step is to connect the module 1 and the converter 13 with a suitable cable 18, for example a straight serial link cable. The cable must be connected to each of the two devices 1 and 13 on interfaces using the same protocol, for example two RS232 interfaces. The cable 13 is connected at one of its ends 18a in the serial connector 8a of the module 1 and at its other end 18b in the connector 14 of the converter 13.

  Alternatively, the connection between the module 1 and the converter 13 may use a specific programming connection. In this case, the module 1 comprises an additional connector (not shown), dedicated to the connection with another device, for example the converter 13.

  The second step is to choose the IP address that is to be assigned to the converter 13 and to select this address in the module 1, in a manner that has been described in detail above.

  In this state, when a user turns on the converter 13, it will read in the memory 12 of the module 1 the IP address stored therein and records said address, in the same way as if one had used a computer to configure said converter 13.

  When the IP address is stored in the converter 13, the processor 9 of the module 1 sends a signal to the diode 6 which is flashing. The module 1 can then be disconnected from the converter 13. The configuration procedure is complete.

  This method of configuring the IP address of the converter 13 is a standard method of configuration using the module 1 and it can be applied to any device that can be connected to a network and in particular to any device requiring a fixed IP address. .

  Alternatively, the module 1 may contain a memory capable of storing the IP addresses that have already been used in order to prevent the same address from being used more than once. In this case, the module 1 may also contain a program for automatically determining a new IP address from the list of already used addresses and that of usable addresses. Such a program may for example be placed in the memory 11.

  In addition, the wheel constituting the selection means may be replaced by one or more buttons, the number of pressures on the button or buttons determining the value of the IP address. The selection means may also consist of switches that set the value of each bit. In this case, the IP address is selected directly in binary form.

  In the case where switches are used, the processor may be replaced by a shift register.

  On the other hand, the IP address stored by the memory 12 of the module 1 need not be converted for display. The display 15 of the IP address on the screen 3 is then binary.

  Although the invention has been described in connection with several particular embodiments, it is obvious that it is not limited thereto and that it comprises all the technical equivalents of the means described and their combinations if they are within the scope of the invention.

Claims (1)

8 claims   An IP address configuration module for configuring a network-connectable device, comprising a housing (2), a selection means (4), a memory (12) and a processor (9), characterized in that said selection means (4) is operated by the user and cooperates with the processor (9) and the memory (12) for selecting and storing an IP address.   2. IP address configuration module according to claim 1, characterized in that said housing (2) comprises a display screen (3) capable of displaying the stored IP address.   3. IP address configuration module according to claim 1 or claim 2, characterized in that said module (1) comprises an interface (8) and is adapted to be connected by a cable (18) adapted to a device having a compatible interface.   4. IP address configuration module according to any one of claims 1 to 3, characterized in that said housing (2) comprises a diode (6), said diode (6) being able to flash to signal the end of 'a configuration process.   An IP address configuration module according to any one of claims 1 to 4, characterized in that said selection means (4) is a control wheel.   An IP address configuration module according to any one of claims 1 to 4, characterized in that said selection means (4) is constituted by switches.   7. IP address configuration module according to any one of claims 1 to 6, characterized in that said memory (12) is able to memorize IP addresses already assigned as well as usable IP addresses.   An IP address configuration module according to any one of claims 1 to 7, characterized in that the module (1) is used to configure an Ethernet serial converter (13).