Silicon Chip Port Devices Driver Download For Windows

Posted By admin On 11/10/21
  1. Silicon Chip Port Devices Driver Download For Windows 10

USB Driver v4.16 Installation Instructions

  1. Most Creality Printers use a FTDI F232R USB to Serial adapter chip for them to use USB. If you have a V1.1.4 board you will want to use the CH340 Driver instead. If you are having issues communicating with your board try installing one of the drivers below.
  2. Silicon Image Serial Ata Raid Driver Windows 7 - DOWNLOAD (Mirror #1).
  3. Virtual COM port (VCP) drivers cause the USB device to appear as an additional COM port available to the PC. Application software can access the USB device in the This page contains the VCP drivers currently available for FTDI devices. For D2XX Direct drivers, please click here.

Also worth noting drivers are available for OSX, Linux and Android if you are for example using FLDigi on those platforms. “A lot of people have had issues with the Yaesu USB Driver. FYI, Silicon Labs just released a new driver Jan 26, 2016. Windows 7/8/8.1/10. Silcon Labs downloads. “ Thanks, Ed for sharing. Provide an INF file that specifies the Ports device setup class and the Serial function driver as the service for the port. To configure a serial port as COM port, comply with the requirements that are defined in Configuration of COM Ports.

System Requirements

Windows 98 / NT / 2000 / Me / XP / Vista (32-bit)? / 7 (32-bit)?

Administrative privileges on your computer (please consult your system administrator for details)

Driver Installation

Note: the screenshots below were obtained in Windows XP; certain system prompts may differ in other versions of Windows, but the overall procedure will be the same.
  1. Download and run (double-click) the file 'CP2101.exe' from the link above:

    Step 1: Unpack files.

    Click Unzip to copy files to an extraction directory (default c:cp2101).
  2. Connect the instrument to a USB port on your computer and turn the instrument on. Ignore and close any windows that appear automatically.
  3. Open Device Manager (right-click on [My] Computer on the Desktop or Start Menu and select Manage; then click on Device Manager). Find a device marked with a exclamation mark and named 'CP2101 USB to UART Bridge Controller' or similarly, as shown below. (This should be located under the category 'Other devices' or 'Universal Serial Bus controllers'; in Windows 98, the device may be named 'Cygnal USB Composite Device' instead).

    Step 3: Device Manager.

  4. Double-click on the 'CP2101 USB to UART Bridge Controller' (or similarly named) device, click on the Driver tab, and click the Update Driver button shown below.

    Step 4: Update Driver.

  5. When asked, do not search for software online, and instead choose 'Install from a list or specific location'.

    Step 5: Install from a specific location.

  6. Have the system search the extraction directory from Step (1) (default c:cp2101) for the driver files to install. Click Finish when prompted. You may need to override warnings about unsigned drivers, especially in Vista/7.

    Step 6: Have the system search the directory from Step 1.

  7. Repeat Steps 4-6 until the 'CP2101 USB to UART Bridge Controller' device no longer shows up with an exclamation mark.
    This completes driver installation. Two new devices should now be present in Device Manager: a 'CP2101 USB to UART Bridge Controller' under 'Ports COM & LPT', and a 'USB Composite Device' under 'Universal Serial Bus controllers'.

Instrument Installation

  1. First complete the USB Driver installation procedure above.
  2. Disconnect the instrument from your PC, if applicable.
  3. Connect the instrument to your PC and turn the power on.
  4. Wait for any automatic system installation tasks to complete.
  5. Open Device Manager (right-click [My] Computer > Manage > Device Manager).
  6. Double-click the category 'Ports (COM & LPT)' to display:
  7. Locate 'CP210x USB to UART Bridge Controller' or a similarly named device to verify successful installation.

This completes instrument installation.

Take note of the COM port number (COM5 in the example above). Assign this number in your instrument software, using the System command under the Setup menu, and then run the Hardware Test command under the Setup menu to confirm that the instrument and computer are communicating properly.

Driver Uninstallation

To uninstall any previously installed drivers, right-click on the device in Device Manager and click Uninstall. You may need to do this not only for the COM Port, but also a USB Composite Device.

  1. Right-click on the CP210x COM device in Device Manager and click Uninstall (check 'Delete the software driver for this device' when prompted).
  2. If present, you will also need to do this for a 'Cygnal USB Composite Device' or 'CP210x USB Composite Device' under the Universal Serial Bus Controllers category as shown here.
  3. To confirm that the USB driver is fully uninstalled, disconnect and reconnect the instrument to your computer and make sure that the CP210x device is now listed under Other devices as shown here. The Cygnal or CP210x composite device should also no longer be installed.
  4. If at this point a COM port is still assigned, you may also need to uninstall the driver from Control Panel > Programs and Features and repeat the procedure above.



Silicon Chip Port Devices Driver Download For Windows 10

  • The USB driver needs to be installed only once on your computer. Multiple instruments can be connected to the same computer, and Windows automatically assign them to different COM ports.
  • The COM port number assigned to your instrument may vary from computer to computer, or even on the same computer (rarely).
  • You can double-click on the 'CP210x USB to UART Bridge Controller' item in Device Manager to display various status information: driver version number, whether the driver is functioning correctly, etc.
  • USB communication is achieved using a USB-serial port converter chip built into the instrument; the driver for this chip, courtesy of Silicon Labs, is what is installed in this section.
    • As a result, the instrument software will behave as if this device is connected to a serial port, even though the physical connection is by USB. Thus, you need to use Device Manager as described above to determine what serial port number is assigned to this device.
    • USB communication therefore provides no specific advantages over a native serial port besides the difference in physical connectivity; if you have a free serial port available on your PC, we recommend its use over a USB port.
    • We include USB support because most computers sold today lack an onboard serial port, and it may be impractical or impossible to add a serial port card.
  • Silicon Labs' old 32-bit drivers from 2003 (version 4.16) have been thoroughly tested with our instruments and have been found to be very reliable. However, they are not compatible with 64-bit versions of Windows.
  • Silicon Labs' newer drivers (version 6.x) are 64-bit compatible, but unfortunately these newer drivers have been found to be unreliable on both 32-bit and 64-bit operating systems when using slow baud rates (19.2K and lower). Whether they will work correctly on your computer will depend on your particular hardware. These are closed-source third-party drivers, over which CH Instruments, Inc. has no control. We apologize for any inconvenience and strongly recommend the use of driver version 4.16 on any 32-bit version of Windows, including Windows 7.
  • More recently, we have posted Silicon Labs' USB driver version 4.4 as an interim measure. Version 4.4 is compatible with 64-bit Windows, and does not seem to suffer from the slow baud rate problem mentioned above. However, we have only tested version 4.4 briefly, and we are unsure whether it is more reliable than 4.16 (which is 32-bit only). We do not intend version 4.4 to be a permanent replacement for version 6.x; Silicon Labs is aware of the 6.x issue and is working to resolve it.
  • Microsoft has only started requiring signed drivers in 64-bit Windows. Contrary to popular belief, however, 64-bit Windows only requires that a driver is signed with a verified certificate, which is not the same as having it vetted by Microsoft's WHQL program. Thus, the driver signing requirement does not necessarily increase stability or security, which is all we end users really care about. Case in point: Silicon Labs' driver 6.0 is WHQL-certified and thus does not elicit any 'untrusted publisher' warnings when installed; however, this driver is known to suffer from serious stability issues (BSOD on surprise removal). On the other hand, we signed Silicon Labs' version 4.4 with a simple (verified) Authenticode code signing certificate, bypassing WHQL entirely (but of course forfeiting any hope of obtaining the coveted 'Certified for Windows' logo).
    What this all means is that 64-bit Windows will allow you to install a driver if and only if somebody vouches for it, nothing more and nothing less. If you have any questions or corrections, please contact us