WO2001004764A1 - Modular, user configurable port expansion system - Google Patents

Modular, user configurable port expansion system Download PDF

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Publication number
WO2001004764A1
WO2001004764A1 PCT/US2000/018707 US0018707W WO0104764A1 WO 2001004764 A1 WO2001004764 A1 WO 2001004764A1 US 0018707 W US0018707 W US 0018707W WO 0104764 A1 WO0104764 A1 WO 0104764A1
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WO
WIPO (PCT)
Prior art keywords
module
port
peripheral device
connector
hub
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/US2000/018707
Other languages
English (en)
French (fr)
Inventor
Ian A. Laity
Timothy J. Thornton
George Q. Gu
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Xircom Inc
Original Assignee
Xircom Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Xircom Inc filed Critical Xircom Inc
Priority to AU59240/00A priority Critical patent/AU5924000A/en
Priority to JP2001510100A priority patent/JP4676667B2/ja
Priority to DE10084792T priority patent/DE10084792B4/de
Publication of WO2001004764A1 publication Critical patent/WO2001004764A1/en
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • GPHYSICS
    • G06COMPUTING OR CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F13/00Interconnection of, or transfer of information or other signals between, memories, input/output devices or central processing units
    • G06F13/38Information transfer, e.g. on bus
    • G06F13/382Information transfer, e.g. on bus using universal interface adapter
    • G06F13/385Information transfer, e.g. on bus using universal interface adapter for adaptation of a particular data processing system to different peripheral devices
    • GPHYSICS
    • G06COMPUTING OR CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F13/00Interconnection of, or transfer of information or other signals between, memories, input/output devices or central processing units
    • G06F13/38Information transfer, e.g. on bus
    • G06F13/40Bus structure
    • G06F13/4063Device-to-bus coupling
    • G06F13/409Mechanical coupling
    • G06F13/4095Mechanical coupling in incremental bus architectures, e.g. bus stacks
    • GPHYSICS
    • G06COMPUTING OR CALCULATING; COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F2213/00Indexing scheme relating to interconnection of, or transfer of information or other signals between, memories, input/output devices or central processing units
    • G06F2213/40Bus coupling
    • G06F2213/4002Universal serial bus hub with a single upstream port

Definitions

  • the present invention relates generally to a port expansion system for connecting a single port, such as a USB port, on a host system such as a personal computer (PC) to various computer peripheral devices and functions, and particularly to such an expansion system that is user configurable so as to provide a high degree of flexibility and efficiency in the connection of the host system to a wide selection of peripheral devices and functions.
  • a host system such as a personal computer (PC)
  • PC personal computer
  • USB Universal Serial Bus
  • USB Universal Serial Bus
  • USB hubs and defines how these peripheral devices can be connected together so that a host can use the resources provided by each device.
  • USB ports are already found on many new PCs and a wide variety of USB peripherals are already on the market. Legacy-free PCs with one or perhaps two USB ports to connect peripherals are also becoming available. Such PCs do not incorporate traditional, standard interfaces.
  • converters for connecting a USB port on a PC or USB hub to traditional interfaces including serial ports, parallel ports, RJ-45 Ethernet LAN ports, and RJ-11 modem ports. These converters may also include one or more USB ports. However, the converters are housed within individual enclosures requiring a separate cable to attach each enclosure to a host system or to a hub.
  • multifunction USB hubs For example, one such multifunction hub expands a USB-enabled PC to provide four additional USB ports along with three traditional ports consisting of two serial ports and one parallel printer port.
  • multifunction USB hub is integrated into a single housing so that only a fixed number and combination of peripheral device or function ports is made available.
  • the present invention provides a user configurable, modular port expansion system allowing the user of a host system such as a USB-enabled PC to customize a desired configuration of one or more peripheral device or function modules without the use of cables between modules.
  • the peripheral device modules are physically and electrically connectable to each other side-by-side between first and second end modules in any sequence so that there can be provided, within the limits of the host system port specification, virtually any number of selected, expanded functions in any combination.
  • the peripheral device modules may include, by way of example, a standard parallel DB-25 port module, a two-port serial PS/2 module, a two-port serial DB-9 module, a four- or seven-port USB hub, an RJ-11 Ethernet LAN module, and an RJ-11 modem module.
  • the invention further provides for the releasable or detachable coupling of the various peripheral device modules.
  • the mechanical coupling between adjacent modules includes mating connectors which also serve to transmit the required electrical signals between the individual device modules of the port expansion system and between the port expansion system and the host system thereby elmiinating the need for external hubs and individual cables to the various modules.
  • a technique for passing signals between the peripheral device modules allow the peripheral device modules to be connected together in any sequence, thus allowing a user to custom-configure a port expansion system to the user's individual requirements.
  • system can be disassembled and the peripheral device modules reassembled in a different order if desired.
  • peripheral device modules By making available a variety of individual peripheral device modules, a user can purchase and add such modules to an existing system in building block fashion to mix and match peripherals and network connections.
  • a modular port expansion system for connecting peripheral devices to a host system, the host system including a host port providing a communication link for signals compliant with an industry standard protocol.
  • the port expansion system comprises a hub module including a host port connectable to the host port on the host system; a downstream connector defining a plurality of slave ports, each slave port providing a commumcation link for signals compliant with the industry standard protocol of the host port on the host system; and a hub module interface circuit interconnecting the host port and the plurality of slave ports.
  • the system further includes a peripheral device module for coupling a peripheral device to the hub module, the peripheral device module being directly connectable to the downstream connector on the hub module.
  • the peripheral device module includes a peripheral device port, connectable to the peripheral device, providing a communication link for signals compliant with an industry standard protocol which may be the same as or different from the protocol of the host port on the host system.
  • the peripheral module further includes an upstream connector releasably mateable with the downstream connector on the hub module, the upstream connector defining a plurality of ports corresponding to the slave ports defined by the downstream connector on the hub module.
  • the upstream connector on the peripheral device module and the downstream connector on the hub module provide a direct, mechanical and electrical interconnection between the hub and peripheral device modules.
  • the peripheral device module incorporates a peripheral device interface circuit connected between one of the ports on the upstream connector and the peripheral device port.
  • the peripheral device module has a downstream connector for mechanically and electrically connecting the peripheral device module directly to a releasably mateable upstream connector on another module.
  • the plurality of ports defined by the upstream connector on the peripheral device module includes a first port, a second port and successive ports and the downstream connector on the peripheral device module defines a plurality of ports including a first port and successive ports.
  • the first port on the upstream connector is connected to the interface circuitry of the peripheral device module.
  • the second and successive ports defined by the upstream connector on the peripheral device module are sequentially connected to the first and successive ports on the downstream connector of the peripheral device module, along the lines of a "shift one" architecture. In this way, peripheral device modules can be connected together in any sequence.
  • a port expansion system in accordance with the present invention further includes a power end module connectable to the hub module, or to a peripheral device module, and which forms the end of the port expansion system opposite that of the hub end module.
  • the power end module includes a connector for connection to an external power supply for powering the system in the event the system requires power above a predetermined level.
  • the power end module may also include an expansion port for daisy chaining port expansion systems or for direct connection to one or more peripheral devices.
  • the port expansion system of the present invention utilizes standard, mateable DB-25 connectors for providing electrical and mechanical coupling between adjacent modules.
  • Fig. 1 is a block diagram of a port expansion system in accordance with one specific, exemplary embodiment of the invention
  • Fig. 2 is a rear perspective view of another embodiment of the port expansion system of the present invention
  • Fig. 3 is a front perspective view of the system shown in Fig. 2;
  • Fig. 4 is a rear/right side perspective view of an example of a peripheral device module in the form of a 7-port USB hub that may form part of a port expansion system in accordance with the present invention
  • Fig. 5 is a rear/left side perspective view of the module of Fig. 4;
  • Fig. 6 is a front elevation view, in cross section, showing details of a latch mechanism for coupling adjacent modules of the port expansion system of the present invention;
  • Fig. 7 is a side elevation view, partly cut away and partly in section of another example of a peripheral device module in the form of a USB-to-parallel port module;
  • Fig. 8 is a simplified perspective view of a printed circuit board assembly forming part of the peripheral device module of Fig. 7;
  • Fig. 9 is a front/right side perspective view of a power end module forming part of the port expansion system of the invention.
  • Fig. 10 is a front/left side perspective view of the power end module of
  • Fig. 11 is a block diagram of a port expansion system in accordance with another specific, exemplary embodiment of the invention showing the electrical interconnections within and between the modules thereof;
  • Fig. 12 is a block diagram of an example of a seven (7) port USB hub end module that may be used in a port expansion system in accordance with the present invention;
  • Fig. 13 shows a representation of a DB-25 connector for coupling the adjacent modules of a port expansion system of the invention, along with the connector pinouts and pin assignments thereof;
  • Fig. 14 is a block diagram of an example of a power end module that may be used in a port expansion system in accordance with the present invention.
  • Fig. 14a is a table showing the sources of system bus power for various conditions
  • Fig. 15 is a block diagram showing the general form of a typical peripheral device module adapted to be connected between the hub and power end modules of a port expansion system in accordance with the invention
  • Fig. 16 is a block diagram of a USB-to-global modem peripheral device module
  • Fig. 17 is a block diagram of a USB-to-Ethernet LAN peripheral device module
  • Fig. 18 is a block diagram of a USB-to-parallel port peripheral device module
  • Fig. 19 is a block diagram of a USB-to-dual serial DB-9 port peripheral device module
  • Fig. 20 is a block diagram of a quad port USB hub peripheral device module
  • Fig. 21 is a block diagram of a USB-to-dual serial PS/2 port peripheral device module.
  • Fig. 1 shows in block diagram form a port expansion system 10 in accordance with a first specific, exemplary embodiment of the invention, for attaching a variety of computer peripheral devices to a host system 12 which, in the example shown, is in the form of a notebook computer.
  • a peripheral device is used in a broad sense, encompassing any physical entity for performing a function so as to provide a capability to the host system. Accordingly, “peripheral devices” may include, by way of example and not limitation, printers, scanners, speakers, digital cameras, Zip drives, business card readers, keyboards, mice, joysticks, as well as telephone lines, Ethernet local area networks, integrated services digital network (ISDN) and digital subscriber line (DSL).
  • the system 10 comprises a series of physically, that is, electrically and mechanically, interconnected modules including a first or hub end module 14, a second or power end module 16 and five peripheral device modules 17-21 in between the hub and power end modules.
  • the hub end module 14 includes a USB host port 22 connected by means of a cable 24 to a USB port 26 on the host system 12.
  • the hub end module 14 is the system front-end and interfaces the USB host system 12 with the port expansion system 10 via seven (7) USB slave ports to support up to six (6) peripheral device modules along with the power end module 16.
  • the power end module 16 includes a USB expansion port 30 for connecting the system 10 to one or more additional or cascaded port expansion systems 32. Alternatively, the USB port 30 may be connected to additional USB hubs or USB-enabled peripheral devices or functions (not shown).
  • the power end module 16 further includes a power jack 34 for connecting the system 10 to an external power source such as an ax. power adapter 36 or equivalent battery pack by means of a plug 37. Such an external power source may be required if a particular configuration of the system 10 requires more power than that available from the power bus on the USB port 22 of the hub module 14.
  • USB-to-dual serial DB-9 port module 17 one of the DB-9 ports 38 of which is shown connected to a business card reader 40; a USB- to-single parallel port (IEEE- 1284) module 18 having a parallel output port 42 shown connected to a printer 44; a USB-to-Ethernet module 19 having an RJ-45 port 46 connected to an Ethernet LAN 48; a USB-to-telephone line/phone modem module 20 having two RJ-11 ports, one of which (50) is shown connected to telephone lines 52; and a USB-to-dual serial PS/2 port module 21 shown connected, by way of example, to a mouse 54 and a keyboard 56.
  • a USB-to-dual serial DB-9 port module 17 one of the DB-9 ports 38 of which is shown connected to a business card reader 40
  • a USB- to-single parallel port (IEEE- 1284) module 18 having a parallel output port 42 shown connected to a printer 44
  • a USB-to-Ethernet module 19
  • Figs. 2 and 3 are rear and front perspective views, respectively, of a practical example of an assembled port expansion system 60 in accordance with the invention.
  • the system of Figs. 2 and 3 includes a first end or hub module 62, a second end or power end module 64 and six user selected peripheral device modules 66-71 connected between the end modules.
  • the peripheral device modules are connected side-by-side in the following user selected sequence: a dual serial PS/2 port module 66; a modem module 67 having dual RJ-11 jacks; an Ethernet LAN module 68 having a single RJ-45 jack; a 7-port USB expansion hub module 69; a parallel port module 70; and a dual serial DB-9 port module 71.
  • the hub end module 62 includes a USB port 72 for connecting the system 60 to a host system such as a desktop PC or notebook computer.
  • the power end module 64 has a USB expansion port 74 and a jack 76 for connection to an external power supply, as already explained.
  • the peripheral device modules 66-71 include front surfaces 78-83 carrying light bars 84-89, respectively, fabricated of a transparent or translucent light conducting plastic. Each of the light bars 84-89 transmits light from one or more light sources, for example, LEDs, within the module to indicate to the user the status and/or activity of that module, as will be further explained below.
  • the hub end module 62 may also include a status/activity indicator comprising a light pipe 90, visible to the user, illuminated by an internal light source responsive to the status and/or activity of the end module 62.
  • the power end module 64 includes a similar status and/or activity indicating light pipe 92.
  • the module 100 includes a molded plastic housing 102 comprising an upper housing portion 104 and a lower housing portion 106 joined by screws or other attachment means (not shown).
  • the module 100 includes a rear panel 107 carrying seven USB ports 108 each comprising a USB Type-B connector.
  • the housing 102 further has a right side wall 110 having an elongated opening 112 through which projects an upstream DB-25 male connector or plug 114 for releasable connection to a mating DB-25 female connector or jack carried by an adjacent module, so as to provide a physical, that is, mechanical and electrical, interconnection between the adjacent modules.
  • the module 100 includes intermodule latching means supplementing the mechanical interconnection afforded by the mating DB-25 connectors. Specifically, projecting from the upper portion of the right side wall 110 of the module 100 is a pair of spaced apart, resilient plastic tabs 116 formed integrally with the upper portion 104 of the housing and positioned to enter mating apertures in the left side wall of an adjacent module. Each tab 116 includes at its outer extremity a barb-like enlargement 118.
  • the housing 102 of the module 100 includes a left side wall 122 having an elongated opening 124 through which projects a downstream DB-25 female connector or jack 126 for receiving the DB- 25 plug on the right side of an adjacent module.
  • a pair of spaced apart apertures 128 for receiving tabs projecting from the right side wall of an adjacent module.
  • the lower portion of the left side wall 122 of the module 100 carries projecting tabs 130 each having at its outer extremity a barb-like outer enlargement 132.
  • upstream connector refers to a DB-25 module connector that is electrically closest to the host system 10.
  • downstream connector refers to a DB-25 module connector that is electrically farthest from the host system 10.
  • the module 100 includes a front wall 134 carrying a longitudinally extending light bar 136 illuminable by an internal light source energizable in response to status and/or activity signals.
  • Fig. 6 is a cross section view showing portions of adjacent modules 140 and 142 to illustrate the manner in which the latching means in the side walls of adjacent modules are coupled to aid in releasably attaching together the modules of a port expansion system in accordance with the invention.
  • the module 140 includes a housing 144 having a right side wall 146 the upper portion of which has outwardly projecting tabs, one of which (148) is shown and which is received by an aperture 150 in the left side wall 152 of the adjoining module 142.
  • a barb- like enlargement 154 on the outer extremity of the tab 148 engages the inner surface 156 of the left side wall 152 of the module 142.
  • a complementary tab 158 on the left side wall 152 of the module 142 is received by an associated aperture 160 in the right side wall 146 of the module 140.
  • FIG. 7 and 8 depict another example of a peripheral device module in the form of a USB-to-parallel port (IEEE- 1284) or Centronics module 170, and show details of the interior thereof. Although a specific module is shown in Figs. 7 and 8, it will be appreciated that the structure of the interior of the module depicted is generally representative of the various modules that may form a port expansion system in accordance with the invention.
  • the peripheral device module 170 of Figs. 7 and 8 includes a molded plastic housing 172 having an upper housing portion 174 and a lower housing portion 176; parallel, left and right side walls 178, 180; and parallel, longitudinally extending front and rear walls 182, 184.
  • a printed circuit board (PCB) 186 mounted within the lower housing portion 176 is a printed circuit board (PCB) 186 having an upper surface 188; front and rear margins 190, 192; and left and right side margins 194, 196.
  • PCB printed circuit board
  • DB-25 jack 210 Mounted on the upper surface 188 of the PCB are electronic circuit components, including interface circuitry, represented by the block 198; a bracket 200 carrying a downstream DB-25 receptacle or jack 202 along the left side margin 194 of the PCB; a second bracket 204 carrying an upstream DB-25 plug 206 along the right side margin 196; and a third bracket 208 carrying a DB-25 jack 210 along the rear margin 192.
  • the left and right side jack and plug connectors 202, 206 are connectable to mating DB-25 connectors on adjacent modules to provide mechanical and electrical interconnections between the modules, as already explained.
  • the rear DB-25 receptacle 210 provides a parallel port conforming to the IEEE- 1284 specification connectable by means of a cable to a peripheral device such as a printer, all as well known in the art.
  • the right side or upstream DB-25 plug 206 projects through an elongated opening 212 in the right side wall 180; a similar opening in the left side wall exposes the downstream DB-25 receptacle or jack 202.
  • a light source 216 such as a light emitting diode (LED), energizable by the circuitry 198 in response to predetermined module status and/or activity conditions.
  • LED light emitting diode
  • the light source 216 is optically coupled with a light bar 218 of light conducting plastic such as LEXAN (a trademark of General Electric for polycarbonate compositions) carried by the front wall 182 of the module 170. Illumination of the light bar 218 by the light source 216 thus provides a user with an indication of the status and/or activity of the peripheral device module.
  • LEXAN a trademark of General Electric for polycarbonate compositions
  • each peripheral device module may contain more than one status/activity-indicating light source and that such plural light sources may have different colors.
  • a plurality of lights bars may be disposed end-to-end along the front wall 182 of the module 170, each associated with a separate light source.
  • the light bar(s) may be eliminated and the light source(s) may be mounted along the front wall 182 of the module so as to be directly visible to a user.
  • the light bar(s) or light source(s) may be mounted on portions of the housing other than the rear wall.
  • Figs. 9 and 10 are perspective views of a typical power end module 230.
  • the hub end module is similarly constructed.
  • the module 230 comprises a molded plastic housing 232 including a right or inner side wall 234 having an elongated opening 236. Projecting through the opening 236 is a DB-25 plug 238 adapted to be connected to a mating DB-25 receptacle or jack on an adjoining module to provide a mechanical and electrical interconnection therewith, as already described.
  • the right side wall 234 of the module 230 further includes latching means in the form of spaced apart tabs 240 and apertures 242, also as already described.
  • the module 230 includes a status/activity indicating light bar having an outer, visible surface 244 exposed adjacent the upper rear comer of the module.
  • Fig. 11 is a block diagram of a port expansion system 250 according to the invention showing in simplified form the signal and power interconnections between the modules.
  • the system 250 includes a hub end module 252 (shown in greater detail in Fig. 12), a power end module 254 (shown in greater detail in Fig. 14) and three peripheral device modules 256, 258 and 260 connected between the hub and power end modules.
  • the peripheral device modules 256, 258 and 260 are shown in generalized form; it will be understood, however, that each of these modules translates USB protocol signals to the protocol of a specific peripheral device connected to the module.
  • 11 includes a standard USB Type-A connector 262 for connection to a host system and a 7-port hub controller 264 connected to the four terminals of the USB connector 262.
  • the 7-port hub controller 264 provides USB data (D+ and D-) signals to seven slave ports, numbered as lines 1 through 7, defined by sets of contacts on a downstream DB-25 receptacle or jack 266, as well as ground lines, shown for simplicity as a single ground line (GND) 268.
  • the slave port 7 is a pass-through to a USB expansion port 272 on the power end module 254.
  • USB expansion port 272 on the power end module 254 which is defined by a USB Type-B connector, may be connected to a USB-enabled peripheral device or hub or may be used to further expand the peripheral devices and functions available to the host system by cascading or daisy-chaining additional port expansion systems.
  • the modules 256, 258 and 260 include interface or protocol conversion circuits 276, 278 and 280, respectively, connected to connectors 282, 284 and 286, respectively, which may be coupled to various peripheral devices such as those shown in Fig. 1.
  • the various modules are physically, that is, electrically and mechanically, connected by means of 25-pin DB-25 jacks and plugs as already explained.
  • the DB-25 jack 266 on the hub end module 252 is coupled to a DB-25 plug 288 on the peripheral device module 256;
  • the modules 256 and 258 are coupled by a DB-25 jack 290 and plug 292; and so forth, each connector defining identical ports 1-7.
  • the system 250 includes a power bus line (VCCBUS) 294 which, like the ground line (GND) 268, is common to all of the modules and powers the circuitry within each module.
  • VCCBUS power bus line
  • GND ground line
  • USB peripheral device modules 256, 258, 260 with USB data line or port number 1 (in practice, comprising two lines D+ and D-) connected to the interface circuits 276, 278 and 280; line or port 2 of the upstream plugs being connected to port 1 of the downstream jacks; port 3 on the upstream plugs being connected to port 2 of the downstream jacks, and so forth.
  • USB data line or port number 1 in practice, comprising two lines D+ and D-
  • line or port 2 of the upstream plugs being connected to port 1 of the downstream jacks
  • port 3 on the upstream plugs being connected to port 2 of the downstream jacks, and so forth.
  • the power end module 254 includes a regulator circuit 296 connected to the power bus 294 and to a power jack 298 which may be coupled to an external power supply, as shown in greater detail in Fig. 14.
  • Fig. 12 is a more detailed block diagram of a practical embodiment of a hub end module 300 that may be used as the "front end" of a port expansion system in accordance with the invention.
  • the module 300 as well as the other modules of the system, utilizes standard, commercially available electrical and electronic components whose specifications and operation are well known in the art and therefore need not be described in detail.
  • the principal component of the hub end module is a 7-port USB hub controller 302 which can support up to seven downstream USB slave ports denoted in Fig. 12 as “Port-1" through "Port- . These ports are defined by sets of contacts on a downstream DB-25 connector receptacle or jack 304 carried by the module 300.
  • the hub end module 300 further includes host USB port comprising a standard 4-pin USB Type-A connector 306 for connecting the module by means of a standard USB cable to a USB port on a host system such as a notebook computer.
  • host USB port comprising a standard 4-pin USB Type-A connector 306 for connecting the module by means of a standard USB cable to a USB port on a host system such as a notebook computer.
  • the DB-25 jack 304 is connectable to a mating upstream DB-25 plug on any peripheral device module, or to a power end module.
  • the module 300 includes a power bus (VCCBUS) 308 connected to the output terminal 310 of an overcurrent power switching circuit 312.
  • the input 314 of the circuit 312 is connected to the host power bus (HOSTVCC) terminal 316 on the connector 306.
  • the circuit 312 has an enable terminal (EN) 318 to which is connected a control line (VCCSEL) 320.
  • the hub end module 300 operates in either a bus-powered mode or a self-powered, ganged port power management mode depending upon the current drawn by the downstream peripheral device modules, pursuant to the USB Specification, Rev. 1.1, Sections 7.2, et seq.
  • the power bus 308 is energized by the HOSTVCC line on the USB port via the overcurrent power switching circuit 312.
  • the hub end module 300 is capable of supplying to each downstream USB port 100 mA for up to four (4) low-power device class functions.
  • the overcurrent power switching circuit 312 provides a bus power off function when the downstream ports draw a total current exceeding 500 mA from the host system.
  • a +5 VDC power supply incorporated in the power end module provides power to the power bus (VCCBUS) 308.
  • the hub end module is capable of supplying to each downstream USB port 500 mA for up to seven (7) low-power or high-power device class functions.
  • the /OVRCURl - /OVRCUR6 terminals on the controller 302 may be tied together for ganged mode operation and be used for overcurrent condition indication and power switch control.
  • the downstream slave “Port-7” is a pass-through USB port connected to the USB expansion connector on the power end module. Power management for "Port-7” is handled separately via a power switching and overcurrent protection circuit 324. When the controller 302 detects a downstream Port-7 fault, power is removed by the switch circuit 324 from Port-7 only, thus allowing the peripheral device modules to continue normal operation.
  • a transient suppressor 326 is connected across the various pairs of USB port data lines to reduce in-rush current and voltage spikes. Although not shown in all instances, such transient suppressors are connected to the data line pairs of each of the remaining modules.
  • the hub end module 300 also includes a low-dropout voltage regulator 328 connected between the power bus 308 and the VCC terminal 330 on the controller 302 to provide the required +3.3 VDC VCC to the controller 302.
  • the hub end module 300 further includes an LED display 332 including a light pipe having an exterior surface visible to the user (Fig. 3) that is illuminated by three LEDs connected to the controller and having different colors indicating the following:
  • Fig. 13 shows a representation of a typical DB-25 connector 336 (the representation shown being applicable to a front view of a DB-25 jack and to a rear view of a DB-25 plug), the connector pinouts and the pin assignments.
  • the pin numbers are identified on the block representing the DB-25 jack 304 in Fig. 12.
  • a power end module 340 including an upstream DB-25 connector plug 342 mateable with the DB-25 jack of any of the peripheral device modules or of the hub end module, and a USB Type-B expansion connector 344 connected to "Port- 7" of the DB-25 plug 342 through termination circuitry 346 providing compliance with FCC, UL and USB requirements.
  • the connector 344 permits cascade connection to another port expansion system or to one or more standard USB devices.
  • the module 340 further includes a power bus (VCCBUS) 348 (connectable to the power buses of the other system modules via the intermodule DB-25 connectors) and a voltage regulator 350 for supplying +5VDC (EXTVCC) with overcurrent protection to the power bus 348 in the self- powered mode of operation, from an extemal power supply 352 via an external power jack 354.
  • a switch circuit 356 detects whether the extemal power supply 352 is plugged in or not, and provides at an output 358 the control signal VCCSEL which is applied to the enable (EN) terminal 318 of the switch 312 in the hub module 300 (Fig. 12) to switch the VCCBUS power source between HOSTVCC and EXTVCC.
  • the only connections to power end module 340 via the the DB-25 plug 342 comprise power, ground and the "Port-7" pass-through connections to the USB connector 344.
  • the module 340 also includes an LED display 359 comprising a light pipe (such as the light pipe 92 on the power end module 64 in Fig. 3) illuminable by two LEDs to provide the user with the following indications:
  • Fig. 14a is a table showing the source of power on the power bus (VCCBUS) for various operating conditions.
  • VCCBUS power bus
  • the control signal VCCSEL applied to the enable terminal 318 of the electronic switch 312 in the hub end module 300 will be high thereby applying HOSTVCC to the power bus (bus-powered mode).
  • VCCSEL goes low, disconnecting HOSTVCC so that the power bus will be powered by EXTVCC appearing at the output of the voltage regulator 350.
  • the module 360 includes pass-through power bus (VCCBUS), VCCSEL control signal, and ground lines 366, 368 and 370, respectively.
  • the module 360 includes an interface circuit, for example, a controller 372 providing conversion of the USB data signals appearing on "Port-1" of the DB-25 plug 362 to the protocol of the peripheral device adapted to be connected to the device or function connectors 374 supported by the module.
  • the typical module 360 includes an LED display 376 responsive to status and/or activity signals generated by the interface circuit 372.
  • peripheral device modules Several specific examples of peripheral device modules will now be briefly described with reference to Figs. 16 to 21. Again, each of these modules utilizes well known components and therefore need not be described in detail; in each case, the wiring between upstream and downstream DB-25 connectors within the module is as illustrated in Fig. 15, with pin assignments as shown in Fig. 13. With reference to the block diagram of Fig. 16, there is shown a 56K global modem module 380 including an upstream DB-25 connector plug 382 and a downstream DB-25 connector receptacle or jack 384, both with pin assignments as set forth in Fig. 13.
  • the module 380 further comprises a USB controller 386, a modem chipset 388, and a data access arrangement (DAA) 390 in the form of an isolating optocoupler for global-approved modem operation.
  • DAA data access arrangement
  • the module also includes a status/activity LED display 396.
  • Fig. 17 is a block diagram of a USB-to- 10Mbps Ethernet LAN module 400 including upstream and downstream DB-25 connectors 402 and 404, respectively, and incorporating a single standard modular RJ-45 jack 406 for connecting the module 400 to an Ethernet LAN.
  • the module 400 further includes interface circuitry comprising a USB-to-Ethernet media access controller (MAC) 408, network physical layer devices 410 and 412, and an LED status activity display 414.
  • MAC USB-to-Ethernet media access controller
  • a USB-to-single parallel port (JJEEE-1284) module 420 including an interface circuit comprising a USB-to- IEEE-1284 bridge device 422.
  • the bridge device 422 is connected to an IEEE- 1284 termination network 424 in turn coupled to a DB-25 parallel port connector 426 adapted to be connected to a peripheral device such as a printer.
  • the module 420 includes an LED display 428 for indicating to the user the power status of the module.
  • USB-to-dual serial DB-9 port peripheral device module 440 incorporating a USB controller 442, a dual universal asynchronous receiver/transmitter (UART) IC 444 and RS-232 transceivers 446 and 448 coupled to DB-9 connectors 450 and 452, respectively.
  • An LED display 454 indicates the status of the DB-9 ports.
  • a 4-port USB hub module 460 incorporating a 4-port USB hub controller 462, a quad USB power control switch device 464, and four USB Type A connectors 466-469.
  • the power control switch device 464 is capable of supplying 500mA to each downstream USB port and can provide current limiting on a per port basis.
  • a 7-port USB hub module is similar to the module 460, except that it includes a 7-port USB hub controller and two quad USB power control switch devices 464.
  • a USB-to-dual serial PS/2 port module 480 including an interface circuit in the form of a USB-to-dual serial PS/2 port bridge device 482 and dual PS/2 termination networks 484 and 486 connected to PS/2 port connectors 488 and 490, respectively.
  • Either PS/2 port can accept a mouse or a keyboard.
  • the module 480 also includes a port status- indicating LED display 492.

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  • Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Computer Hardware Design (AREA)
  • Information Transfer Systems (AREA)
  • Power Sources (AREA)
PCT/US2000/018707 1999-07-08 2000-07-07 Modular, user configurable port expansion system Ceased WO2001004764A1 (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
AU59240/00A AU5924000A (en) 1999-07-08 2000-07-07 Modular, user configurable port expansion system
JP2001510100A JP4676667B2 (ja) 1999-07-08 2000-07-07 ユーザ構成可能なモジュールポート拡張システム
DE10084792T DE10084792B4 (de) 1999-07-08 2000-07-07 Modulares, nutzerkonfigurierbares Port-Erweiterungssystem

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
US14273399P 1999-07-08 1999-07-08
US60/142,733 1999-07-08
US09/569,855 US6697892B1 (en) 1999-07-08 2000-05-12 Port expansion system
US09/569,855 2000-05-12

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US (2) US6697892B1 (enExample)
JP (1) JP4676667B2 (enExample)
AU (1) AU5924000A (enExample)
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WO (1) WO2001004764A1 (enExample)

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US6697892B1 (en) 2004-02-24
DE10084792T1 (de) 2002-08-14
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JP2003504758A (ja) 2003-02-04
US20030135681A1 (en) 2003-07-17

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