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  • Download Win Vista / Win 7 driver 109R This driver is for the platform models M, V, & X series It is also for the ULS 25E and ULS PS.
  • Download the driver (s) for your specific ULS system. All drivers are pertinent to a specific laser platform and will work for all laser cutting, laser marking, and laser engraving activities. Download Drivers for VLS, PLS and ILS Platforms Download Drivers for Legacy Platforms.
  • Direct File Import. ULS laser material processing systems are designed as a computer peripheral. Print drivers are supplied with the laser system to allow users to print design files making them broadly compatible with a wide selection of software from graphic design to CAD/CAM.

According to your post, my understanding is that you wanted to download the ULS Log Viewer for SharePoint 2010 (the Dan Winter version) that was hosted on MSDN. The MSDN Archive Gallery has recently been taken down. That gallery contained ULSViewer.exe, a much-loved tool that no SharePoint guy or gal should be without.

This topic is intended for OEMs who want to build a Windows 10 system with USB Type-C connector and want to leverage OS features that allow for faster charging, power delivery, dual role, alternate modes, and error notifications through Billboard devices.

A traditional USB connection uses a cable with a USB A and USB B connector on each end. The USB A connector always plugs in to the host side and the USB B connector connects the function side, which is a device (phone) or peripheral (mouse, keyboard). By using those connectors, you can only connect a host to a function; never a host to another host or a function to another function. The host is the power source provider and the function consumes power from the host.

The traditional configuration limits some scenarios. For example, if a mobile device wants to connect to a peripheral, the device must act as the host and deliver power to the connected device.

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The USB Type-C connector, introduced by the USB-IF, defined in the USB 3.1 specification, addresses those limitations. Windows 10 introduces native support for those features.

Feature summary

  • Allows for faster charging up to 100W with Power Delivery over USB Type-C.
  • Single connector for both USB Hosts and USB Devices.
  • Can switch USB roles to support a USB host or device.
  • Can switch power roles between sourcing and sinking power.
  • Supports other protocols like DisplayPort and Thunderbolt over USB Type-C.
  • Introduces USB Billboard device class to provide error notifications for Alternate Modes.

Official specifications

Hardware design

USB Type-C connector is reversible and symmetric.

The main component are: the USB Type-C connector and its port or PD controller that manages the CC pin logic for the connector. Such systems typically have a dual-role controller that can swap the USB role from host to function. It has Display-Out module that allows video signal to be transmitted over USB. Optionally it can support BC1.2 charger detection.

Consider recommendations for the design and development of USB components, including minimum hardware requirements, Windows Hardware Compatibility Program requirements, and other recommendations that build on those requirements.Hardware component guidelines USB

Choose a driver model

Use this flow chart to determine a solution for your USB Type-C system.

If your system...Recommended solution...
Does not implement PD state machinesWrite a client driver to the UcmTcpciCx class extension.
Write a USB Type-C port controller driver
Implements PD state machines in hardware or firmware and support USB Type-C Connector System Software Interface (UCSI) over ACPILoad the Microsoft provided in-box drivers, UcmUcsiCx.sys and UcmUcsiAcpiClient.sys.
See UCSI driver.
Implements PD state machines in hardware or firmware, but either does not support UCSI, or support UCSI but requires a transport other than ACPIWrite a client driver for the UcmCx class extension.
Write a USB Type-C connector driver
Write a USB Type-C Policy Manager client driver
Implements UCSI but requires a transport other than ACPIWrite a client driver to the UcmUcsiCx class extension.
Use this sample template and modify it based on a transport that your hardware uses.
Write a UCSI client driver

Bring up drivers

  • USB Function driver bring-up is only required if you support USB Function mode. If you previously implemented a USB Function driver for a USB micro-B connector, describe the appropriate connectors as USB Type-C in the ACPI tables for the USB Function driver to continue working.

    For more information, see instructions about writing a USB Function driver.

  • USB Role-Switch driver bring-up is only required for devices that have a Dual Role controller that assumes both Host and Function roles. To bring-up the USB Role-Switch driver, you need to modify the ACPI tables to enable the Microsoft in-box USB role-switch driver.

    For more information, see the guidance for bringing up the USB Role Switch Driver.

  • A USB Connector Manager Driver is required for Windows to manage the USB Type-C ports on a system. The bring-up tasks for a USB Connector Manager driver depend on the driver that you choose for the USB Type-C ports: The Microsoft in-box UCSI (UcmUcsiCx.sys and UcmUcsiAcpiClient.sys) driver, a UcmCx client driver, or a UcmTcpciCx client driver. For more information, see the links in the preceding section that describe how to choose the right solution for your USB Type-C system.

Test

Perform various functional and stress tests on systems and devices that expose a USB Type-C connector.

Test USB Type-C systems with USB Type-C ConnEx - Run USB tests included in the Windows Hardware Lab Kit (HLK) for Windows 10.

Run USB function HLK tests with a C-to-A cable (search for Windows USB Device in the HLK

Certification/ComplianceAttend Power Delivery and USB Type-C compliance workshops hosted by the standards bodies.

See also

Raster Performance Comparison Test

Raster performance, also known as raster mode, is mainly used for engraving and photo imaging. In this test, a single graphic element was used to compare raster performance. Settings were selected on each laser system to minimize production time while achieving comparable, acceptable output quality. Read more …

Vector Performance Comparison Test

Vector performance, also known as vector mode, is mainly used for cutting and single line engraving and marking. In this test, 12 graphic elements were developed to test different aspects of vector performance when laser material processing. Settings were adjusted on each laser system in the comparison to maximize performance while achieving comparable and acceptable quality for the PLS6.150D (ULS) and two competitor systems, System E and System T. Read more …

Modular Architecture

With hundreds of thousands of materials suitable for laser cutting, engraving and marking, our modular architecture enables customers to build a solution that can easily be reconfigured at any time to meet the needs of each application. Additionally, through our modular architecture, customers can take advantage of patented technologies only offered from ULS: Rapid Reconfiguration, Dual laser Configuration, SuperSpeed, Multi-Wavelength and MultiWave Hybrid. Laser powers ranging from 10 to 150 watts can be user installed in seconds (no technician required).

Contact us and we will help you configure the most optimal solution to meet your needs in more than 1,000,000 different ways.

Universal Laser Systems

ULS has been advancing the application of modern CO2 laser technology since 1988. Their R&D efforts have resulted in numerous patents, with several pending, in continual pursuit to develop and enhance laser systems that benefit the customer. Their R&D philosophy is to create highly modular platforms that can be easily configured with interchangeable laser power cartridges and field upgradeable system options. This robust system configuration capability, unique to Universal, gives customers the flexibility and investment protection to optimize laser systems as their business evolves.

1-Touch Laser Photo is an innovative product for converting digital photographs (BMP, JPEG, PNG or TIFF formats) into bitmap files that can be used to indelibly mark or engrave the image into materials such as hard wood, stone or metal to create high value products.

Laser Technology Benefits

  • Software Controlled – The laser can be controlled by any software with a print function.
  • Multi-Material – Process an endless number of materials available today and in the future.
  • Multi-Process – Cut, engrave, mark, and produce photo images in one step.
  • Non Contact – Modify material without applying any physical force.
  • On Demand – Produce everything you need in real time, without waiting for hard tooling.

Universal Laser Systems is an innovator in the field of laser engraving, laser cutting and laser marking equipment. The laser material processing systems ULS manufacture are the product of decades of experience and a commitment to research and development. ULS laser systems deliver everything you have come to expect from a high quality product—including excellent precision, performance and reliability—but they also offer several exclusive features unique to Universal. These patented, proven laser processing innovations were designed to make laser processing more effective, productive and profitable. And you can only get them from Universal Laser Systems.

ULR Laser Sources

Universal’s patented air-cooled free-space gas slab lasers produce an excellent quality beam with even power distribution and good near and far-field characteristics, making them ideal for laser material processing.
High Power Density Focusing Optics™
Uls laser software

High Power Density Focusing Optics (HPDFO) allow the laser beam to be focused to a much smaller spot, making it possible to engrave smaller text and produce sharper images at tighter tolerances.
Laser Interface+™

This materials-based driver automatically determines the optimum processing settings for your target material. Just select the material type, enter the material thickness, and start the laser system.
1-Touch Laser Photo™
ULS

1-Touch Laser Photo is a proprietary software package that makes it quick and easy to produce photographic images on nearly any material. Download 30-day Free Trial
Rapid Reconfiguration™ of Lasers

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Laser platforms with Rapid Reconfiguration can be reconfigured with new laser sources in seconds, without tools. This allows you to configure your laser system to suit the task at hand, increasing quality and throughput.
Dual Laser Configuration

The Dual Laser Configuration optically combines two ULS laser sources into a single beam for additional power and flexibility.

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SuperSpeed™

SuperSpeed is suitable for raster image applications and requires Dual Laser Configuration. This component allows two lines of a raster image to be produced simultaneously. For vector cutting, the laser beams can be combined to take advantage of higher power.
Multi-Wavelength Technology

This new Multi-wavelength platform is engineered to support our new laser sources which produce 1.06 micron fiber wavelength light and 9.3 micron CO2 wavelength light as well as our traditional CO2 lasers producing 10.6 micron wavelength light.
True Class 4 Material Pass-Through Mode

When used in conjunction with an approved work environment, our versatile ILS platform is designed to accommodate laser processing of continuous materials, such as long sheet goods or rolled materials.
Universal's Camera Registration (UCR)

Universal’s Camera Registration is a combination of a camera mounted inside the laser system that locates and determines the exact positions of registration marks on printed materials and software that adjusts a predefined cut path to fit the material.
Advantages of Metal Core CO2 Lasers
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There are several types of materials used to construct laser sources. The main body of a laser, containing the critical laser gas mixture, is referred to as a core. They can be made of metal, ceramic or glass. Read more …

Download Uls Viewer

The Materials Library is the world’s premier source for information on laser material processing. It provides information on the types of materials that can be laser processed and the processes (laser cutting, engraving and marking) that are possible with a given material.

Additionally, the Materials Library highlights considerations for your laser system configuration necessary to process a given material as well as how ULS technology innovations can be leveraged to obtain the best possible results.

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This library is an evolving resource with updates made on a regular basis.