The device connected to the "A" end of the cable at start-up, known as the "A-device", acts as the default host, while the "B" end acts as the default peripheral, known as the "B-device". The choice between host and peripheral roles is handled entirely by which end of the cable the device is connected to. With OTG, a device can be either a host when acting as a link master, or a link peripheral. USB OTG recognizes that a device can perform both Host and Peripheral roles, and so subtly changes the terminology. For instance, a computer printer is normally a slave device, but when a USB flash drive containing images is plugged into the printer's USB port with no computer present (or at least turned off), it would be useful for the printer to take on the role of host, allowing it to communicate with the flash drive directly and to print images from it. While the master-slave arrangement works for some devices, many devices can act either as master or as slave depending on what else shares the bus. To transfer data between two devices, for example from a phone to a printer, the host first reads the data from one device, then writes it to the other. The host controls all data transfers over the bus, with the devices capable only of signalling (when polled) that they require attention. That allows the devices to be greatly simplified compared to the host for example, a mouse contains very little logic and relies on the host to do almost all of the work. When a device is plugged into the USB bus, the host device sets up communications with the device and handles service provisioning (the host's software enables or does the needed data-handling such as file managing or other desired kind of data communication or function). Such phones could not readily be connected to printers as they also implemented the peripheral role. In the absence of USB OTG, cell phones often implemented Peripheral functionality to allow easy transfer of data to and from computers. ![]() If implementing standard USB, devices must assume one role or the other, with computers generally set up as hosts, while (for example) printers normally function as a Peripheral. Standard USB uses a Master/Slave architecture a host acts as the Host device for the entire bus, and a USB device acts as a Peripheral. ![]() Overview Ī USB OTG setup involving a number of devices The wiring for the ID pin defines the initial role of each device. The host and peripheral modes may be exchanged later by using Host Negotiation Protocol (HNP). In the default link configuration, the A-device acts as a USB host with the B-device acting as a USB peripheral. The OTG A-device is a power supplier, and an OTG B-device is a power consumer. USB OTG defines two roles for devices: OTG A-device and OTG B-device, specifying which side supplies power to the link, and which initially is the host. The device controlling the link is called the Host, while the other is called the Peripheral. USB OTG introduces the concept of a device performing both Host and Peripheral roles – whenever two USB devices are connected and one of them is a USB OTG device, they establish a communication link. ![]() A mobile phone may read from removable media as the host device, but present itself as a USB Mass Storage Device when connected to a host computer. Use of USB OTG allows those devices to switch back and forth between the roles of host and device. USB On-The-Go ( USB OTG or just OTG) is a specification first used in late 2001 that allows USB devices, such as tablets or smartphones, to also act as a host, allowing other USB devices, such as USB flash drives, digital cameras, mouse or keyboards, to be attached to them. USB On-The-Go adapter for USB-B Micro charging ports of smartphones and tablet computers without dedicated USB-A port
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |