NO328206B1 - USB changer and method using the same. - Google Patents

Abstract

A device is described for USB exchangers (1) and the procedure for using the same for serial. communication between a computer (PC1-PC8) and a peripheral device (PU), where the USB exchanger (1) is arranged to be connected to the peripheral device (PU) by means of a USB peripheral device connector and two or more computers (PC1-PC8) by means of USB computer connectors and establish communication for communication between one of the computers (PCI-PC8) and the peripheral equipment (PU), where the USB exchanger (1) is provided with an input for control signal or control command for switching, and a switching means (91-98) assigned to each of the USB computer connectors, wherein the coupling means (91-98) is arranged to establish an electrical connection between four contact points in the USB computer connector and four corresponding contact points in the USB peripheral equipment connector, and that the USB exchanger is further supplied with a control unit (5, 7) adapted to respond to the control signal or control command for switching by first disconnecting the connected USB computer connector and then connecting a specified computer (PCI-PC8) for serial communication with the peripherals.

Description

USB CHANNEL AND PROCEDURE FOR USING THE SAME

The invention relates to a USB changer for serial communication between a computer and peripheral equipment, and procedure for using the same, where USB stands for the English term Uni-versal Serial Bus. More specifically, it is a USB changer for serial communication between a computer and a peripheral device, where the USB changer is arranged to connect to a peripheral device by means of a USB peripheral device connector and two or more computers by means of USB computer connectors and establishing a connection for communication between one of the computers and the peripheral equipment, and procedure for switching between two or more computers connected for serial communication between one of the computers and a peripheral equipment.

USB has made it easy to use many types of peripherals with a computer. Examples of peripheral equipment include keyboards, pointing devices, memory, disk storage, printers, network equipment, scanners, cameras, navigation equipment, measuring equipment and instruments of many kinds. The user experiences a great advantage in that peripheral equipment is provided with the same type of connectors and in that peripheral equipment can be plugged into any USB connector on the computer. Another advantage is that USB peripherals can be plugged in and out of the computer without having to restart the computer to establish a connection and communicate with the peripheral. The bus structure is also a contributing reason why USB has gained a dominant position in the market for peripheral equipment. With the help of a so-called USB hub, several peripheral devices can be connected to one USB socket on the computer.

Although USB is intended to connect one or more peripheral devices to a computer, there is also a need to connect one peripheral device to multiple computers. That is, several computers share a peripheral device, for example two or more computers share the use of a printer. Sharing peripherals is a different task than connecting multiple USB peripherals to a computer. However, the task is no more unusual than the fact that a type of USB device is known for sharing peripheral equipment. Such devices are marketed under several designations, but English-language designations such as USB sharing hub and USB sharing switch are common, and in the following such a device is called a USB changer.

A USB hub connects to a peripheral device and two or more computers and establishes a connection for communication between one of the computers and the peripheral device. The other computers connected to the USB changer cannot communicate with the peripherals. A user can give a toggle signal to the USB switcher to establish a connection between the peripheral and one of the other computers. The switching signal can communicate over the USB connection between the computer that will use the peripheral equipment and the USB switching device. The changeover signal can also be given using a manually operated key or switch which is integrated into the USB changer.

Users often find that known USB changers cause the computer to which the USB changer changes, not to make contact with the peripheral equipment. The problem is solved by restarting the relevant computer and peripheral equipment. Such a restart is time-consuming and a major inconvenience for users who each have their own computer and, for example, must switch between using a USB-connected presentation device in a meeting or conference. The problem seems to increase with the length of the cable between the computer and the peripheral, and the problem occurs even if the cable length is shorter than the maximum length given by the USB specification.

The purpose of the invention is to remedy or to reduce at least one of the disadvantages of known technology.

The purpose is achieved by features which are indicated in the description below and in subsequent patent claims.

According to a first aspect of the present invention, there is provided a device of a USB changer for serial communication between a computer and a peripheral device, where the USB changer is arranged to be connected to a peripheral device by means of a USB peripheral device connector and two or several computers using USB computer connectors and establishing a connection for communication between one of the computers and the peripheral equipment, wherein the USB changer is provided with an input for a control signal or control command for switching, and a coupling means assigned to each of the USB computer connectors, the coupling means being arranged to establish an electrical connection between four contact points in the USB computer connector and four corresponding contact points in the USB peripheral device connector, and that the USB changer is further provided with a control unit adapted to respond to the control signal or control command for switching by first disconnecting the connected USB computer connector and then ten Connect a specified computer for serial communication with the peripheral.

The coupling means is in one embodiment a four-pole relay.

In one embodiment, the control connector and the interface for the control command are of the USB type.

In one embodiment, the control connector and the control command interface are one of the type RS-232, RS-485, RS-422, MIL-ST-188, EIA 530 or other suitable types.

In a second aspect of the present invention, a method is provided for switching between two or more computers connected for serial communication between one of the computers and a peripheral device, where the method includes the steps: - connecting the computers and the peripheral device to a USB switcher using of USB computer connectors, respectively a USB peripheral device connector; and - sending a control signal or a control command for switching between a first computer and a second computer to a control unit in the USB changer, where the signal or command affects a coupling means assigned to each of the USB computer connectors, and where the control unit, upon receiving the signal, disconnects it connected USB computer connector on all four USB conductors before switching to the other USB computer connector takes place.

For the sake of simplicity, the switching means will be referred to as a relay in what follows.

In use, a maximum of one of the relays will thus be activated so that only one of several connected computers can communicate with a connected peripheral device. When switching between connected computers, first all the relays are deactivated so that none of the computers have contact with the peripheral equipment, then one of the relays is activated so that a connection is created between the USB peripheral control connector and the desired USB computer connector.

The device according to the present invention solves the problems which are believed to be the cause of the above-mentioned problems with known exchangers. The problems are believed to be related to voltage differences between USB voltage and/or USB signals from one computer to the next. It is also believed that the problems become more apparent with long USB cables.

The applicant is not aware that any analysis has been made of what actually causes the problems with known USB exchangers, but a possible explanation could be as follows: USB assumes that there is only one computer on the bus. Strictly speaking, that is not true; according to the USB standard, there should only be one USB "host", and that is typically a PC. All communication is controlled from the computer. All devices listen on the bus, but no one sends anything except at the request of the "host". The computer (host) assigns each device an ID number which the individual device stores. The computer starts a dialog by sending out a data packet that all devices receive. The data packet contains the ID number of the device the computer wants a response from, and only the device that finds a match between its own ID number and the ID number in the data packet is allowed to respond. It is believed that switching from one computer to another leads to confusion regarding the ID number the peripheral has stored as its own. If a peripheral is USB device number 1 for one computer and is switched to another computer that previously identified the USB device with ID number 20, the USB device will not respond to the request unless it has changed its ID number from 1 to 20. Switching between computers can be said to be unregulated in relation to the USB standard, and it is conceivable that a full on/off sequence is necessary for the USB device to get a new ID. This solves the invention by breaking all four USB conductors and thus simulating that the user pulls out the plug and plugs the device into another computer, so that it is ensured that the ID numbering is canceled in the computer that is disconnected and is run from the start in the computer that the device is connected to .

The USB changer according to the invention is particularly, but not exclusively, aimed at a USB device which is sold under the trade name "Smartboard", and which is a kind of digital board where you write with imaginary ink. The prints are sent to the computer, which receives and optionally stores and presents the prints on a screen or on a canvas with the help of a projector. The invention is particularly intended to solve switching problems in a set-up where such a board is to be switched between several PCs which may be located partly far from each other and far from the board. Far here can mean longer than the maximum distance specified in the USB standard.

In order to have a longer USB cable than what the standard specifies as a maximum, a couple of amplifiers, possibly a modem, are usually used on part of the cable route. One amplifier is mounted, for example, at the board or the Smartboard itself, and the other amplifier is mounted some distance from the board. Thus, the USB cable from the PC does not need to be any longer than to the aforementioned other amplifier. The problems when switching between several computers are nevertheless urgent. An inexplicable observation is that it works better to connect a PC to said second amplifier via the USB changer according to the present invention than to connect the PC directly to the second amplifier (ie without the USB changer).

In the following, an example of a preferred embodiment is described which is illustrated in the accompanying drawings, where: Fig. 1 shows a block diagram for a USB changer according to the

present invention; and

Fig. 2 shows on a larger scale a principle sketch of a USB changer which is designed to be able to connect one of eight PCs together with a peripheral device; Fig. 3 shows on a larger scale a principle sketch of one

of the relays indicated in detail A in Figure 2.

In the figures, the reference number 1 denotes a USB changer according to the present invention. The USB changer 1 includes a power supply unit 3 for transistors and for a programmable integrated control circuit 5 which is subsequently also referred to by the abbreviation PISK 5. PISK 5 is connected together with a driver circuit 7 which is designed to, among other things, control relays 91-98 assigned to each of a plurality of USB computer connectors. PISK 5 and the driver circuit 7 together make up the USB changer's 1 control unit.

Reference is first made to figure 1 where the USB changer is designed to be able to receive a control signal or control command for switching via wires 11 which terminate in WHIP 5 in a control connector (not shown). The control connector and the control command interface are of the USB type or one of the RS-232, RS-485, RS-422 or other suitable types.

WHIP 5 is arranged to communicate with the driver circuit 7 by means of communication lines as shown in fig. 1, but which are not further specified with a reference number. The driver circuit 7 is arranged to be able to control each of the plurality of relays 91-98 and to be able to turn on/off each one of a set of light emitting diodes (LED) 19 which is placed in, for example, an indicator panel not shown. One LED 19 is assigned to each relay 91-98, one to indicate voltage in the power supply circuit 3 and one to indicate that the WHIP 5 is pre-programmed and ready for incoming command.

Communication lines between the individual units are shown in Figure 1, but not specifically indicated.

The relays 91-98 are assigned to a USB termination 21 of a known type.

Figure 2 shows on a larger scale a simplified outline of the USB changer 1 shown in Figure 1. Figure 2 shows only eight relays 91-98 which are designed to be able to connect one of eight PCs indicated as PC1-PC8 to a peripheral equipment indicated as PU. However, it should be understood that the power supply 3, the WHIP 5, the driver circuit 7 etc. shown in Figure 1 are also included in the USB changer 1 shown in Figure 2.

Each of the wires 11 (only one indicated by reference number) which connects each of the PCs PC1-PC8 to the individual relay 91-98 as described above, consists of four wires as indicated in Figure 2. Similarly, the wires 12 which connect the individual relays 91-98 to the peripheral equipment PU, of four conductors as indicated.

Figure 3 shows the relay 91 on a larger scale and in more detail

which is arranged to establish electrical connection between four contact points in the USB computer connector assigned to PCI to four corresponding contact points in the USB peripheral equipment connector assigned to PU. The relays 92-98 shown in Figure 2 are identical to the relay 91.

As shown in figure 3, the relay 91 is arranged to be able to disconnect each of the four USB conductors 11, 12. The relay 91 is controlled in a manner known per se by means of a coil 21 which receives current from the driver circuit 7 via a wire 23.

Thus, the disconnected computer connectors are galvanically separated from the connected computer connector and from the peripheral equipment connector on all four USB conductors 11, 12.

Reference is again made to figures 1 and 2. When the PISK 5 recognizes a control signal or control command received through the wire 11, 12, the PISK 5 will send commands for switching to the driver circuit 7. As a first step, any electrical connection, for example between PC2 and PU, are disconnected using the switches in the relevant relay which in this case will be relay 92. As mentioned above and as shown in Figure 3, all four USB conductors are disconnected. As a second step, another PC, for example PC5, is then connected to the peripheral equipment PU by means of a relevant relay which in the example will be relay 95.

The LEDs 19 will indicate which of the PCs PC1-PC8 is possibly connected to the peripheral equipment PU.

Although many types of relays 91-98 can be used in the present invention, experiments have shown that relays of the high-frequency type, that is to say relays which give little signal loss at 500 MHz, are preferable. The relays should also be of the so-called shielded type, and exhibit little noise or so-called "bounce" at the moment of connection.

Claims (10)

1. Device by USB changer (1) for serial communication between a computer (PC1-PC8) and a peripheral device (PU), where the USB changer (1) is arranged to be connected to the peripheral device (PU) by means of a USB -peripheral equipment connector and two or more computers (PC1-PC8) using USB computer connectors and establish a connection for communication between one of the computers (PC1-PC8) and the peripheral equipment (PU), characterized in that the USB changer (1) is provided with an input for a control signal or control command for switching, and a coupling means (91-98) assigned to each of the USB computer connectors, the coupling means (91-98) being arranged to establish electrical connection between four contact points of the USB computer connector and four corresponding contact points in the USB peripheral equipment connector, and that the USB changer is further provided with a control unit (5, 7) arranged to respond to the control signal or control command for switching by first disconnecting the connected USB computer connector note and then connect a specified computer (PC1-PC8) for serial communication with the peripheral equipment. 2. Device according to claim 1, where the coupling means (91-98) consists of a four-pole relay (91-98). 3. Device according to claim 1, where disconnected computer connectors are galvanically separated from the connected computer connector and from the peripheral equipment connector. 4. Device according to claim 3, where the galvanic separation comprises all four USB conductors. 5. Device according to claim 1, where the control connector and the interface for the control command are of the USB type. 6. Device according to claim 1, where the control contact and the interface for control command is one of the type RS-232, RS-485, RS-422, or other suitable types. 7. Device according to claim 2, where the relays (91-98) are of a type that produces little noise on the contacts at the moment of switching. 8. Device according to claim 2 or 7, where the relays (91-98) are of the high-frequency type. 9. Procedure for switching between two or more computers (PC1-PC8) connected for serial communication between one of the computers (91-98) and a peripheral device (PU), characterized in that the procedure comprises the steps: - connecting the computers (PC1-PC8 ) and the peripheral equipment (PU) of a USB changer (1) by means of USB computer connectors, respectively a USB peripheral equipment connector; - sending a control signal or a control command for switching between a first computer (PC1-PC8) and a second computer (PC1-PC8) to a control unit (5, 7) in the USB changer (1), where the signal or command affects a coupling means (91-98) assigned to each of the USB computer connectors, and where the control unit (5, 7) on receiving the signal disconnects the connected USB computer connector on all four USB conductors before switching to the other USB computer connector takes place. 10. Method according to claim 10, where a four-pole relay (91-98) is used as coupling means.