Patent Application
20210141754
Projectors are display devices that can be coupled to a computing device. A projector, once coupled to a computing device, may enlarge the display of a computing device, thus making displayed information viewable to a larger group of individuals, for example in a conference presentation room. In another example a projector may be used to provide a secondary display to the primary display of a computing device. In this case, a user may view additional information in addition to that which is presented on a primary screen of the computing device.
The accompanying drawings illustrate various examples of the principles described herein and are part of the specification. The illustrated examples are given merely for illustration, and do not limit the scope of the claims.
Throughout the drawings, identical reference numbers designate similar, but not necessarily identical, elements. The figures are not necessarily to scale, and the size of some parts may be exaggerated to more clearly illustrate the example shown. Moreover, the drawings provide examples and/or implementations consistent with the description; however, the description is not limited to the examples and/or implementations provided in the drawings.
As described above, projectors can be used to either duplicate and enlarge a display originating from a computing device, or can be used to extend the display and thus present additional material. For example, a user presenting to a large audience may use a projector to duplicate information on a computing screen and enlarge it such that the entire audience can view the presentation.
In another example, a user may wish to extend a display such that multiple applications on a computing screen can be viewed at the same time. For example, a word processing document could be opened and displayed on one screen and a spreadsheet could be opened and displayed on another screen. Such dual screen presentation may increase the efficiency of work for a user.
While such projectors are inarguably useful in the options they present for information display, some additional developments may increase their overall usability. For example, it may be the case that a user desires to couple multiple projectors to a computing device. Doing so may be difficult as complex cable arrangements may be required to facilitate such a connection. Moreover, in some examples, a user may desire a second display, but it may be impractical to transport a second monitor. For example, while traveling, a user may transport their laptop computing device with its screen and may desire for a second display window without having to haul along an entirely second computer screen and the complex connection components that may be associated therewith.
Accordingly, the present specification addresses this and other issues. Specifically, the present specification describes a docking device that can receive multiple projectors. That is, the docking device includes multiple docking stations, with each docking station able to receive a projector. In this fashion, a projector could be coupled to the computing device to provide an extended display, rather than a bulky monitor. The docking device also provides a simple connection interface for a projector, which projector may be a pico projector. Such a pico projector and simple docking device provide a simple and easily transportable docking station for multiple projectors.
Specifically, the present specification describes a projector docking device. The projector docking device includes an input to couple the projector docking device to a computing device. In this example, information to be visualized through a projector is passed via the input. The projector docking device also includes multiple docking stations. Each docking station includes at least a first port to receive a projector that displays the information generated on the computing device.
The present specification also describes a projection system. The projection system includes a projector docking device. The system also includes multiple modular projectors, each of which is coupled to a port of a different docking station.
According to another example, the projector docking device includes the input through which data to be visualized is transmitted and through which control data for the projectors is transmitted. The projector docking device also includes multiple docking stations, with each station including 1) the first port and 2) a second port to couple a monitor to the computing device. In this example, the projector docking device includes a switch to selectively couple the computing device to one of the first port and the second port.
In summary, using such a projector docking device 1) enables multiple high resolution displays; 2) expands a display of a computing device; 3) provides flexibility in display options; and 4) is portable for easy transport. However, the devices disclosed herein may address other matters and deficiencies in a number of technical areas.
As used in the present specification and in the appended claims, the term “docking station” refers to a section of the docking device wherein projectors/monitors can be coupled. For example, one docking station allows one projector or one monitor to be plugged therein. A docking device with three docking stations has three sections, each of which can receive either a projector or a monitor.
Turning now to the figures,
To facilitate the enlargement, duplication, and/or extension of the displayed information, the projector docking device (100) includes an input (102) that couples the projector docking device (100) to a computing device. Via this input (102), information to be displayed is passed through the circuitry of the projector docking device (100) to coupled projectors. The input (102) may be of varying types and protocols. For example, the input (102) may support a universal serial bus (USB) protocol. Such an input (102) facilitates the high, or super, speed transmission of information generated on the computing device and to be visualized on a projector.
Via the input (102), control data may also be transmitted. That is, a controller, which may be in the computing device, may adjust the logical display of the coupled projectors. For example, a bandwidth allocated to each projector may be altered based on the number of projectors that are coupled to the docking device (100). Accordingly, the input (102) transmits this information to the controller. In another example, the logical display of the projectors may be dependent upon which of the first ports (106) the projector is coupled to, and where the docking device (100) is in relation to the computing device. Accordingly, the projector docking device (100) may include hardware components to determine active ports (106) and relative position of the projector docking device (100) and may pass such information to a controller of the computing device such that an associated display of projectors can be altered.
The projector docking device (100) also includes multiple docking stations (104). A docking station (104) refers to a junction through which a projector or monitor can be coupled to a computing device. In one example, the docking station (104) includes a first port (106). In other examples, the docking station (104) may include additional ports. An example of a docking station (104) with additional ports is provided below in connection with
The first port (106) of each docking station (104) can receive a projector. In some examples, the first port (106) is a multi-protocol port (106). That is, via the first port (106) different protocols may be used. As a specific example, the first port (106) may have multiple differential pairs of transmission lines capable of supporting one super-speed protocol at a given time, which super-speed protocols may be of varying types. By accommodating different super-speed protocols, devices that implement the different protocols can be accommodated.
As a specific example, the first port (106) may be a USB type-c port which can use any one of a USB protocol, an alternative mode protocol, such as an alternative mode specifically tailored for use with display devices. In this example, the alternative modes may be specific to display devices. For example, a display device specific alternative mode may provide for up to 4 k resolution and may support up to three modular projectors. In yet another example, the first port (106) may be used with other types of protocols. By accommodating various communication protocols, the first ports (106) may communicate with projectors that implement these different protocols and may be able to transmit visual information via a number of different parameters.
As described herein, the projector docking device (100) of the present specification allows for the use of multiple high resolution displays. Specifically, this is accommodated by including multiple ports (106) on the docking device (100). The multiple ports (106) also facilitate the expandability, i.e., how many projector devices, of the projection system. Such a projector docking device (100) is also small and portable, allowing for the use of multiple projectors, even at times when space is limited for the storage and transportation of such devices, such as air travel.
In some examples, the bandwidth allocated to a projector is determined based on a number of active docking stations (104). Or rather, the bandwidth allocated to a projector is determined based on a number of projectors that are coupled to the docking device (100). For example, it may be that the docking device (100) can support 2 k resolution on each of three coupled projectors, which is when three docking stations (104) are active. In another example, if a single docking station (104) is active, the docking device (100) may support 4 k resolution on that single projector. Accordingly, the projector docking device (100) may include circuitry to detect active ports (106) and to pass control information pertaining thereto to a controller of a coupled computing device. In these examples, the projector docking device (100) can receive more than one projector. For example, the docking device (100) may receive as many projectors as there are ports (106) to receive projectors.
In some examples, in addition to the docking ports (106), at least one docking station (104) may include a swivel (208) to allow adjustment of the coupled projector. That is, during use the display area of adjacent projectors may overlap with one another. Accordingly, the swivel (208) corresponding to the different docking stations (104) may allow the projector and its corresponding output to rotate such that edges of the adjacent projections are aligned. Thus an overlap of adjacent displays is prevented.
Including multiple docking stations (104) on a single projector docking device (100) may increase productivity. That is, a user with a single display provided via a computing device may be less productive on account of the reduced screen space. Accordingly, by providing for additional coupled projectors, a user may have an enlarged screen space, thus improving their ability to complete tasks.
Moreover, by being small and portable, the docking device (100) may provide enlarged, duplicated, or extended displays when they otherwise would be unavailable. For example, during travel the space available to store and transport projectors and the associated cabling may be limited, and moreover may be complex. Due to the small size of the projector docking device (100), a user can accommodate facile connection of any number of projector devices, all without requiring significant amounts of storage space.
In this example, each docking station (104) includes additional components. For example, each docking station (104) may include a second port (310). The second port (310) is to couple a monitor to the computing device. As with the projector, the monitor is to display information such as video, photos, computer applications, etc. that are generated on the coupled computing device. Put another way, at each docking station (104) a user may elect to couple a monitor, a projector, or nothing. As such, a user can tailor a display system to their desire. That is, a user may couple one extra monitor to a second port (310) of one docking station (104) and may couple a projector to a first port (106) of another docking station (104). While specific reference is made to a particular configuration of coupled display devices (i.e., monitors and projectors), a wide variety of combinations of monitors and projectors could be implemented in line with the current projector docking device (100).
In some examples, the first port (106) may be of a different type than the second port (310). For example, as described above, the first port (106) may be a multi-protocol port such as a USB type-c port. The second port (310) may be a different type of port such as a video graphics array (VGA) port or a digital visual interface (DVI) port. While specific reference is made to particular types of display ports that may be used as the second port (310) various other types of ports may be used in accordance with the principles described herein.
Providing different types of ports (106, 310) allows for even more possibilities regarding coupled display devices. That is, the second port (310) provides even more connection types, thus providing for the coupling of other types of display devices such as computer monitors, televisions, etc.
In some examples, each docking station (104) includes a switch (312). The switch (312) selectively couples the computing device to one of the first port (106) and the second port (310). Put another way, the first port (106) and the second port (310) may be multiplexed, together such that visualization data and control signals are passed to just one of the two ports (106, 310) of a particular docking station (104) at any given moment.
Selection of one of the first port (106) and the second port (310) may facilitate the selection and use of certain communication protocols. Accordingly, in addition to selectively coupling one of the first port (106) and the second port (310) to the associated computing device, the projector docking device (100) may also pass information relating to which of the first port (106) and second port (310) is active, or has a display device connected. A controller within the computing device may then pass visualization information based on the detected active port. For example data may be sent using certain protocols and/or at certain speeds based on the connection.
In some examples, the projector docking device (100) may include circuitry (314) for determining which ports are active, or rather which ports (106, 310) have received a projector or monitor connection. As described above, such information may be used by a controller within a computing device to determine how to manage the data transmission between that port (106, 310).
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In summary, using such a projector docking device 1) enables multiple high resolution displays; 2) expands a display of a computing device; 3) provides flexibility in display options; and 4) is portable for easy transport. However, the devices disclosed herein may address other matters and deficiencies in a number of technical areas.
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/US2018/042726 | 7/18/2018 | WO | 00 |
