- Drivers Cdc Driver Port Devices Driver
- Drivers Cdc Driver Port Devices Download
- Drivers Cdc Driver Port Devices Terminal
- Drivers Cdc Driver Port Devices Gigabit
SAM-BA USB CDC Driver. When the Atmel ARM based board is plugged into a PC USB port, the driver makes the Atmel USB microcontroller configure as a USB CDC port that will appear as a COM port in Windows. The driver will be copied to the PC if the SAM-BA PC software is installed. It can also be downloaded here. Well, the USB CDC driver MTK is an import driver that will help Android users to connect their MediaTek devices to the PC. To simply put, this works as a bridge between your Android device and your computer if you want to transfer and share files from these platforms. Download Andorid CDC Driver Latest Version. Starting from Windows ® 10, the STSW-STM32102 driver is no more adequate and the usage of the native inbox driver is recommended. Key Features Virtual COM port driver installation package for Windows ® operating systems: 98SE, 2000, XP, Vista ®, 7, and 8.x. Use the built-in front USB Port to connect locally with the Ethernet Security Gateway. Installation Instructions. Unzip the archive to a location on your computer. Connect the USB A-to-B cable to your computer and an SEL-36XX. Go to the Device Manager and find the device. Right click and select 'Update Driver Software.' The Software Development Kit (SDK) comes with configuration tool (Windows only), drivers (Windows only), libraries and application examples. In CDC mode (CDC device class) the device will come up as Virtual COM Port (VCP) device. Native APIs can be used to access the device in CDC mode for all the OS.
Important
This topic is for programmers. If you are a customer experiencing USB problems, see Troubleshoot common USB problems
This topic lists the Microsoft-provided drivers for the supported USB device classes.
- Microsoft-provided drivers for USB-IF approved device classes.
- For composite devices, use USB Generic Parent Driver (Usbccgp.sys) that creates physical device objects (PDOs) for each function.
- For non-composite devices or a function of a composite device, use WinUSB (Winusb.sys).
If you are installing USB drivers: You do not need to download USB device class drivers. They are installed automatically. These drivers and their installation files are included in Windows. They are available in the WindowsSystem32DriverStoreFileRepository folder. The drivers are updated through Windows Update.
If you are writing a custom driver: Before writing a driver for your USB device, determine whether a Microsoft-provided driver meets the device requirements. If a Microsoft-provided driver is not available for the USB device class to which your device belongs, then consider using generic drivers, Winusb.sys or Usbccgp.sys. Write a driver only when necessary. More guidelines are included in Choosing a driver model for developing a USB client driver.
USB Device classes
USB Device classes are categories of devices with similar characteristics and that perform common functions. Those classes and their specifications are defined by the USB-IF. Each device class is identified by USB-IF approved class, subclass, and protocol codes, all of which are provided by the IHV in device descriptors in the firmware. Microsoft provides in-box drivers for several of those device classes, called USB device class drivers. If a device that belongs to a supported device class is connected to a system, Windows automatically loads the class driver, and the device functions with no additional driver required.
Hardware vendors should not write drivers for the supported device classes. Windows class drivers might not support all of the features that are described in a class specification. If some of the device's capabilities are not implemented by the class driver, vendors should provide supplementary drivers that work in conjunction with the class driver to support the entire range of functionality provided by the device.
For general information about USB-IF approved device classes see the USB Common Class Specification
The current list of USB class specifications and class codes is documented in the USB-IF Defined Class Code List.
Device setup classes
Windows categorizes devices by device setup classes, which indicate the functionality of the device.
Microsoft defines setup classes for most devices. IHVs and OEMs can define new device setup classes, but only if none of the existing classes apply. For more information, see System-Defined Device Setup Classes.
Two important device setup classes for USB devices are as follows:
USBDevice {88BAE032-5A81-49f0-BC3D-A4FF138216D6}: IHVs must use this class for custom devices that do not belong to another class. This class is not used for USB host controllers and hubs.
USB {36fc9e60-c465-11cf-8056-444553540000}: IHVs must not use this class for their custom devices. This is reserved for USB host controllers and USB hubs.
The device setup classes are different from USB device classes discussed earlier. For example, an audio device has a USB device class code of 01h in its descriptor. When connected to a system, Windows loads the Microsoft-provided class driver, Usbaudio.sys. In Device Manager, the device is shown under is Sound, video and game controllers, which indicates that the device setup class is Media.
Microsoft-provided USB device class drivers
USB-IF class code | Device setup class | Microsoft-provided driver and INF | Windows support | Description |
---|---|---|---|---|
Audio (01h) | Media {4d36e96c-e325-11ce-bfc1-08002be10318} | Usbaudio.sys Wdma_usb.inf | Windows 10 for desktop editions (Home, Pro, Enterprise, and Education) Windows 10 Mobile Windows 8.1 Windows 8 Windows 7 Windows Server 2008 Windows Vista | Microsoft provides support for the USB audio device class by means of the Usbaudio.sys driver. For more information, see 'USBAudio Class System Driver' in Kernel-Mode WDM Audio Components. For more information about Windows audio support, see the Audio Device Technologies for Windows website. |
Communications and CDC Control (02h) | ||||
Ports {4D36E978-E325-11CE-BFC1-08002BE10318} | Usbser.sys Usbser.inf | Windows 10 for desktop editions Windows 10 Mobile | In Windows 10, a new INF, Usbser.inf, has been added that loads Usbser.sys automatically as the function driver. For more information, see USB serial driver (Usbser.sys) | |
Modem {4D36E96D-E325-11CE-BFC1-08002BE10318} Note Supports Subclass 02h (ACM) | Usbser.sys Custom INF that references mdmcpq.inf | Windows 10 for desktop editions Windows 8.1 Windows 8 Windows 7 Windows Server 2008 Windows Vista | In Windows 8.1 and earlier versions, Usbser.sys is not automatically loaded. To load the driver, you need to write an INF that references the modem INF (mdmcpq.inf) and includes [Install] and [Needs] sections. Starting with Windows Vista, you can enable CDC and Wireless Mobile CDC (WMCDC) support by setting a registry value, as described in Support for the Wireless Mobile Communication Device Class. When CDC support is enabled, the USB Common Class Generic Parent Driver enumerates interface collections that correspond to CDC and WMCDC Control Models, and assigns physical device objects (PDO) to these collections. | |
Net {4d36e972-e325-11ce-bfc1-08002be10318} Note Supports Subclass 0Eh (MBIM) | wmbclass.sys Netwmbclass.inf | Windows 10 for desktop editions Windows 8.1 Windows 8 | Starting in Windows 8, Microsoft provides the wmbclass.sys driver, for mobile broadband devices. See, MB Interface Model. | |
HID (Human Interface Device) (03h) | HIDClass {745a17a0-74d3-11d0-b6fe-00a0c90f57da} | Hidclass.sys Hidusb.sys Input.inf | Windows 10 for desktop editions Windows 10 Mobile Windows 8.1 Windows 8 Windows 7 Windows Server 2008 Windows Vista | Microsoft provides the HID class driver (Hidclass.sys) and the miniclass driver (Hidusb.sys) to operate devices that comply with the USB HID Standard. For more information, see HID Architecture and Minidrivers and the HID class driver. For further information about Windows support for input hardware, see the Input and HID - Architecture and Driver Support website. |
Physical (05h) | - | - | - | Recommended driver: WinUSB (Winusb.sys) |
Image (06h) | Image {6bdd1fc6-810f-11d0-bec7-08002be2092f} | Usbscan.sys Sti.inf | Windows 10 for desktop editions Windows 8.1 Windows 8 Windows 7 Windows Server 2008 Windows Vista | Microsoft provides the Usbscan.sys driver that manages USB digital cameras and scanners for Windows XP and later operating systems. This driver implements the USB component of the Windows Imaging Architecture (WIA). For more information about WIA, see Windows Image Acquisition Drivers and the Windows Imaging Component website. For a description of the role that Usbscan.sys plays in the WIA, see WIA Core Components. |
Printer (07h) | USB Note Usbprint.sys enumerates printer devices under the device set up class: Printer {4d36e979-e325-11ce-bfc1-08002be10318}. | Usbprint.sys Usbprint.inf | Windows 10 for desktop editions Windows 8.1 Windows 8 Windows 7 Windows Server 2008 Windows Vista | Microsoft provides the Usbprint.sys class driver that manages USB printers. For information about implementation of the printer class in Windows, see the Printing - Architecture and Driver Support website. |
Mass Storage (08h) | ||||
USB | Usbstor.sys | Windows 10 for desktop editions Windows 10 Mobile Windows 8.1 Windows 8 Windows 7 Windows Server 2008 Windows Vista | Microsoft provides the Usbstor.sys port driver to manage USB mass storage devices with Microsoft's native storage class drivers. For an example device stack that is managed by this driver, see Device Object Example for a USB Mass Storage Device. For information about Windows storage support, see the Storage Technologies website. | |
SCSIAdapter {4d36e97b-e325-11ce-bfc1-08002be10318} | SubClass (06) and Protocol (62) Uaspstor.sys Uaspstor.inf | Windows 10 for desktop editions Windows 10 Mobile Windows 8.1 Windows 8 | Uaspstor.sys is the class driver for SuperSpeed USB devices that support bulk stream endpoints. For more information see: | |
Hub (09h) | USB {36fc9e60-c465-11cf-8056-444553540000} | |||
Usbhub.sys Usb.inf | Windows 10 for desktop editions Windows 10 Mobile Windows 8.1 Windows 8 Windows 7 Windows Server 2008 Windows Vista | Microsoft provides the Usbhub.sys driver for managing USB hubs. For more information about the relationship between the hub class driver and the USB stack, see USB host-side drivers in Windows. | ||
Usbhub3.sys Usbhub3.inf | Windows 10 for desktop editions Windows 8.1 Windows 8 | Microsoft provides the Usbhub3.sys driver for managing SuperSpeed (USB 3.0) USB hubs. The driver is loaded when a SuperSpeed hub is attached to an xHCI controller. See USB host-side drivers in Windows. | ||
CDC-Data (0Ah) | - | - | - | Recommended driver: WinUSB (Winusb.sys) |
Smart Card (0Bh) | SmartCardReader {50dd5230-ba8a-11d1-bf5d-0000f805f530} | |||
Usbccid.sys (Obsolete) | Windows 10 for desktop editions Windows 7 Windows Server 2008 Windows Vista | Microsoft provides the Usbccid.sys mini-class driver to manage USB smart card readers. For more information about smart card drivers in Windows, see Smart Card Design Guide. Note that for Windows Server 2003, Windows XP, and Windows 2000, special instructions are required for loading this driver because it might have been released later than the operating system. Note Usbccid.sys driver has been replaced by UMDF driver, WUDFUsbccidDriver.dll. | ||
WUDFUsbccidDriver.dll WUDFUsbccidDriver.inf | Windows 8.1 Windows 8 | WUDFUsbccidDriver.dll is a user-mode driver for USB CCID Smart Card Reader devices. | ||
Content Security (0Dh) | - | - | - | Recommended driver: USB Generic Parent Driver (Usbccgp.sys). Some content security functionality is implemented in Usbccgp.sys. See Content Security Features in Usbccgp.sys. |
Video (0Eh) | Image {6bdd1fc6-810f-11d0-bec7-08002be2092f} | Usbvideo.sys Usbvideo.inf | Windows 10 for desktop editions Windows Vista | Microsoft provides USB video class support by means of the Usbvideo.sys driver. For more information, see 'USB Video Class Driver' under AVStream Minidrivers. Note that for Windows XP, special instructions are required for loading this driver because it might have been released later than the operating system. |
Personal Healthcare (0Fh) | - | - | - | Recommended driver: WinUSB (Winusb.sys) |
Audio/Video Devices (10h) | - | - | - | - |
Diagnostic Device (DCh) | - | - | - | Recommended driver: WinUSB (Winusb.sys) |
Wireless Controller (E0h) Note Supports Subclass 01h and Protocol 01h | Bluetooth {e0cbf06c-cd8b-4647-bb8a-263b43f0f974} | Bthusb.sys Bth.inf | Windows 10 for desktop editions Windows 10 Mobile Windows 8.1 Windows 8 Windows 7 Windows Vista | Microsoft provides the Bthusb.sys miniport driver to manage USB Bluetooth radios. For more information, see Bluetooth Design Guide. |
Miscellaneous (EFh) | Net {4d36e972-e325-11ce-bfc1-08002be10318} Note Supports SubClass 04h and Protocol 01h | Rndismp.sys Rndismp.inf | Windows 10 for desktop editions Windows 8.1 Windows 8 Windows 7 Windows Vista | Prior to Windows Vista, support for CDC is limited to the RNDIS-specific implementation of the Abstract Control Model (ACM) with a vendor-unique protocol (bInterfaceProtocol) value of 0xFF. The RNDIS facility centers the management of all 802-style network cards in a single class driver, Rndismp.sys. For a detailed discussion of remote NDIS, see Overview of Remote NDIS. The mapping of remote NDIS to USB is implemented in the Usb8023.sys driver. For further information about networking support in Windows, see the Networking and Wireless Technologies website. |
Application Specific (FEh) | - | - | - | Recommended driver: WinUSB (Winusb.sys) |
Vendor Specific (FFh) | - | - | Windows 10 for desktop editions Windows 10 Mobile | Recommended driver: WinUSB (Winusb.sys) |
Related topics
Created on: 12 November 2013
Atmel ARM microcontrollers contain a boot program called SAM-BA. The SAM-BA boot program can be loaded to the Flash memory of the microcontroller by closing a jumper on the microcontroller board and then powering up the board.
Examples:AT91SAM7S uses the TST (TEST) pin to load SAM-BA (e.g. AT91SAM7S256);
ATSAM3U microcontrollers use the ERASE pin to load SAM-BA (e.g. AT91SAM3U2C).
Once the SAM-BA boot software is loaded to Flash memory, the microcontroller will then run the SAM-BA software when powered up. Microcontrollers that have a USB port and SAM-BA running can then be connected to a PC and programmed via a USB cable using the Atmel SAM-BA PC application.
This article shows how to install the driver in Windows 7 that the SAM-BA PC software uses.
SAM-BA USB CDC Driver
When the Atmel ARM based board is plugged into a PC USB port, the driver makes the Atmel USB microcontroller configure as a USB CDC port that will appear as a COM port in Windows.
The driver will be copied to the PC if the SAM-BA PC software is installed. It can also be downloaded here:
(To save the above driver, right-click and choose Save Link As.. or whatever save item your browser uses)
Installing the Driver
1. Plug the Microcontroller Board into the PC
After plugging in the microcontroller (and powering it if externally powered), Windows will try to install a driver.
Automatic driver installation will fail.
2. Open Device Manager
Click the Windows Start button and then right-click Computer. Click Properties on the menu that pops up.
In the window that opens, click 'Device Manager'.
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The Atmel microcontroller running SAM-BA will be displayed as an 'unknown device'.
3. Update the Driver
Right-click the unknown device in the device manager and then click Update Driver Software.. on the menu that pops up.
In the dialog box that pops up, click Browse my computer for driver software.
Click the Browse.. button.
Use the dialog box to navigate to the folder containing the driver.
The correct path will now appear in the dialog box. Click the Next button at the bottom of the dialog box.
In the dialog box that pops up, click Install this driver software anyway.
The driver may take a while to install.
You will be notified when installation is complete.
Back in the Device Manager window, the new device and COM port number assigned to it can be seen.
Testing the Driver and Microcontroller Board
After installing the driver, it can be tested by using the SAM-BA application software on the PC, or by using a terminal emulator as shown here.
Drivers Cdc Driver Port Devices Driver
Use a terminal software program such as Bray's Terminal.
Connecting with the Terminal Emulator
Drivers Cdc Driver Port Devices Download
Start the terminal program, select the COM port shown in device manager, e.g. COM3. Set the Baud rate to 115200 and then click the Connect button.
Requesting the SAM-BA Version
To test that the terminal emulator can communicate with the SAM-BA software running on the microcontroller, the version of the SAM-BA software can be requested. This is done by sending a specific message to the microcontroller / SAM-BA software.
At the bottom of the terminal window, click the +CR checkbox. This will insert a carriage return character at the end of the message to send.
Now type V# into the Send field and then click the Send button to send the SAM-BA version request message.
Drivers Cdc Driver Port Devices Terminal
SAM-BA Version Response
The SAM-BA software will respond with the SAM-BA version information as shown below.
Drivers Cdc Driver Port Devices Gigabit
Atmel ARM Microcontrollers