Royalty Report: Fabrication, Semiconductors, Coating – Collection: 28132

$150.00

Curated Royalty Rate Report
Category: Technology Licenses, Created On: 2022-04-28, Record Count: 11

Description

This collection of transactions and supporting information was developed using our AI algorithm to curate similar royalty reports into a cohesive collection to support your licensing, transfer pricing or other transaction scenarios where documented royalty rates and/or deal terms are important.
Category: Technology Licenses
Created On: 2022-04-28
Record Count: 11

Primary Industries

  • Fabrication
  • Semiconductors
  • Coating
  • Material Composite
  • Chemicals
  • Electrical & Electronics
  • Solar
  • Coating surface
  • Metals & Metal Products
  • Energy & Environment
  • Radiation
  • Security
  • Construction
  • Building Mtls & Construction
  • glass
  • Scientific & Technical Instruments
  • Test/Monitoring

IPSCIO Report Record List

Below you will find the records curated into this collection.  This summary includes the complete licensed property description so that you can review and determine if this collection covers the topics, technology or transaction type that is relevant for your needs.  The full report will include all relevant deal data such as the royalty base, agreement date, term description, royalty rates and other deal terms.  For reference, here is a sample of a full IPSCIO curated royalty rate report: Sample Report

IPSCIO Record ID: 28132

License Grant
The Licensor grants the Licensee an exclusive royalty-bearing, worldwide License, with the right to sub License, under the Licensor's proprietary MPECVD Technology and Improvement Inventions to use the MPECVD Technology and Improvement Inventions and make, use and sell the Products in the Field for the period of time covered by the Exclusivity Period.
License Property
Products shall mean any and all products incorporating one or more multilayered optical coatings in which at least one layer of a multilayer stack is deposited by the Licensor's MPECVD Technology.

ECD Microwave Plasma Enhanced Chemical Vapor Deposition (MPECVD) technology is use to produce other thin film coatings.

Licensor is involved in research, development and commercialization of proprietary technology relating to microwave plasma enhanced chemical vapor deposited multilayered optical coatings and the manufacturer of products that incorporate such coating.

Field of Use
The Field includes Products produced for sale as coatings in display applications (CRT’s, Flat Panel Displays, Digitizers, Touchpanels, etc) and coatings for flexible substrate applied to automotive and building glass and decorative and reflector applications, and for non low emissivity coatings on automotive and building glass, decorative and reflector glass applications.

The Licensee is involved in research, development and manufacture of sputtered multilayered coatings on substrates.

IPSCIO Record ID: 28059

License Grant
In this agreement, Licensor grants an exclusive Worldwide License, with the right to sub license, under proprietary MPECVD Technology and Improvement Inventions to use the MPECVD Technology and Improvement Inventions and make, use and sell the Products.
License Property
The proprietary technology is relating to microwave plasma enhanced chemical vapor deposited or MPECVD, multi-layered optical coatings.
Field of Use
The Products produced for sale as coatings in display applications (CRT’s, Flat Panel Displays, Digitizers, Touch panels, etc) and coatings for flexible substrate applied to automotive and building glass and decorative and reflector applications, and for non low emissivity coatings on automotive and building glass, decorative and reflector glass applications.

IPSCIO Record ID: 114030

License Grant
The Licensor and Chinese Licensee entered into a joint venture to produce coated glass in Suzhou China for resale both through Licensor and through Licensee.
License Property
Licensor supplies thin film coated glass for low and high resolution black and white LCDs, such as those found in calculators or cellular telephones.
Field of Use
The joint venture represents a strategic effort to establish manufacturing capacity in the Far East.

IPSCIO Record ID: 5328

License Grant
Pursuant to the Assignment Agreement entered for Patent No. 5,254,237 which is entitled, Plasma Arc Apparatus for Producing Thin Film Diamond Coatings, was granted on October 19, 1993 to Licensor, the inventor of the original titanium nitride and thin film diamond coating processes.
License Property
The Diamond Coating Process includes, but is not necessarily limited to, low temperature titanium nitride, cobalt nitride, chromium nitride, ferroelectric coatings, piezoelectric coatings, diamond hard coatings and diamond semi-conductor substrates.  Thus there has been disclosed a unique plasma arc deposition system for producing diamond, doped diamond or diamond-like coatings on a substrate by pulsed plasma technique.  These techniques do not require or produce temperature rise at the substrate, allowing normally temperature sensitive substrates to be utilized.  Typical of substrates which bond readily to the thin film diamond coatings without degradation are zinc sulfide (ZnS) or zinc selenide (ZnSe), which are useful in infrared windows or laser components.  The system disclosed and described can be used in the development of products and materials such as producing on junction diodes of crystalline carbon, so that rectifiers able to withstand temperatures in the neighborhood of 1000 to 1500 degrees Fahrenheit are also possible. Insulated gate field effect transistors that can handle high source to drain potentials and provide high gain without seriously loading the signal source, while operating at elevated temperatures beyond those achievable with silicon devices, can be produced with the system described.  Many other diamond-like integrated circuit chips, such as light emitting diodes or diodes used in solid state lasers are possible. Since thick diamond layers of good optical clarity can be produced by the process described herein, among the new devices that have become possible is an optical modulator that depends upon the polarizing effects of electric fields upon light beams through the crystal lattice.  This property leads to the entirely new family of high-power, opto-electronic coupling, modulating, scanning and/or sensing devices based upon diamond semiconductors.  Many other semiconductor devices that can utilize the enhanced properties of diamond-like films can be produced with the invention disclosed and described herein.
Field of Use
The rights granted apply for producing diamond-like coatings.

IPSCIO Record ID: 480

License Grant
The Licensor  hereby grants a sole and exclusive, worldwide, royalty-bearing right and license under the Licensed Patent Applications and the Licensed Patents to make, have made, use, sell, offer for sale, lease and otherwise dispose of Licensed Products in the Licensed Territory in the Licensed Field of Use.  Licensee accepts the terms and conditions required for sublicensees as outlined in the UC License.
License Property
Licensed Product, singular or plural, shall mean any Atmospheric Pressure Plasma Jet Technology wherein the manufacture, use, offer for sale, sale or importation of Atmospheric Pressure Plasma Jet Technology by Licensee would, but for the rights and license granted herein, constitute an infringement of a valid and enforceable claim of a subsisting Licensed Patent and shall not include Licensee's standard power delivery equipment (i.e., stand alone Licensee's power supplies and match networks) but includes power generation and delivery equipment which is designed specifically as an integral and indivisible part of the Atmospheric Pressure Plasma Jet Technology.

'Deposition Process Technology' means processes for depositing compositions of matter, including Deposition Precursor Technology, onto substrates using Deposition Plasma Jet Technology.  Plasmas have been used extensively in a wide variety of industrial and high technology applications, from semiconductor fabrication to coatings of reflective films for window panels and compact disks.

Surface cleaning is a fundamental requirement for many industrial processes. It is also important for decontamination of objects. Traditionally, surface cleaning has been accomplished using solvent-based methods, technologies which have been available for more than 100 years. Increasing concerns about ground water and air pollution, greenhouse gases, and related health and safety issues have severely restricted the use of common volatile organic solvents, and even many of the recently-adapted, less hazardous chemical substitutes.  Plasmas have been used extensively in a wide variety of industrial and high technology applications, from semiconductor fabrication to coatings of reflective films for window panels and compact disks. Plasmas ranging in pressure from high vacuum (<0.1 mTorr) to several Torr are most common, and have been used for film deposition, reactive ion etching, sputtering and other forms of surface modification. The primary advantage of plasma cleaning is that it is an 'all-dry' process, generates minimal effluent, does not require hazardous pressures, and is applicable to a wide variety of vacuum-compatible materials, including silicon, metals, glass, and ceramics.

Field of Use
'Licensed Field of Use shall mean all fields in which Licensee can demonstrate that it is one of the top three leading vendors in market share in each of such fields, as demonstrated by dollar volume of sales in the preceding year, including but not limited to Semiconductor Processing, Data Storage (including but not limited to magnetic and optical), Flat Panel and Electronic Displays, and Architectural Glass, and in any other field mutually agreed upon.

IPSCIO Record ID: 153750

License Grant
Licensor grants to Licensee an exclusive, nontransferable, worldwide right and License to use the Licensor Industrial Property Rights solely for the  manufacture, sale, lease, or other disposition of products incorporating the Licensed Technology.  Licensor further grants to Licensee an exclusive, nontransferable right to (i) modify and make derivative works from the Licensor Industrial Property and (ii) subject to the prior written consent of Licensor, which shall not be unreasonably withheld, sublicense the Licensor Industrial Property rights solely for the purposes of manufacture, product development, distribution or related uses.
License Property
The Business shall mean the Intragene and related coating business acquired by Licensee pursuant to the terms of the Purchase Agreement and now operated by Licensee.

Licensor Industrial Property Rights shall mean all Confidential Information and, whether or not the following constitute Confidential Information, all of Licensors patents, licenses, trademarks, trade names, inventions, inventors notes, copyrights, formulea know-how, trade secrets, drawings and designs relating to the Business represented by the Licensed Technology.

Licensed Technology shall mean all of Licensors proprietary technology relating to the Business which has been licensed to Licensee hereunder including, but not limited to, the Patents and the Marks.

The Marks means the trademark 'Licensor Materials' and all trade or service mark registrations (and any applications therefor) associated therewith.

Patents shall mean the following patents (i) U.S. Patent 4,535,029 dated 8/13/85, (ii) U.S. Patent 4,426,423 dated 11/17/84, (iii) U.S. Patent 4,358,506 dated 11/9/82, (iv) U.S. Patent 4,376,806 dated 3/15/83 and (v) U.S. Patent 4,396,677 dated 8/2/83.

4,535,029 – Method of catalyzing metal depositions on ceramic substrates
4,426,423 – Ceramic, cermet or metal composites
4,358,506 – Metal and carbon composites thereof
4,376,806 – Highly adhesive coatings for beryllia
4,396,677 – Metal, carbon, carbide and other composites thereof

The Intragene-TM- process is a proprietary methodology developed by metallurgists and materials scientists at the Company and has been granted six U.S. patents as well as national phase patents based on two European patent applications and three Japanese patents. The Intragene-TM- process facilitates the ability to metallize, solder or braze a wide range of engineering ceramics, graphite and refractory metals.

The materials division product line consists of Intragene-TM–based sputtering target assemblies and electromagnet systems. The sputtering target assemblies have been sold into the rigid disk market since 1986 and are considered one of the most reliable such assemblies in the market today. Sputtering target assemblies are sold to end-users as source materials for coating other materials via a vacuum-based process called sputtering. Sputtering is employed as the primary method for depositing thin film functional and protective layers on rigid magnetic media (hard disks), as well as in many semiconductor-manufacturing operations. Once a target is made, it must usually be incorporated into the sputtering apparatus by joining it to a backing plate to make sound electrical, thermal and mechanical contact. The bonding of a target to the backing plate, which is usually made of copper, forms what is known as the 'bonded target assembly.'

Field of Use
This agreement pertains to the chemical industry relating to the coating technology.

IPSCIO Record ID: 203449

License Grant
The United Kingdom Licensor desires to grant a license to certain Licensor technology, know-how, plans and designs related to
(1) the manufacture of SiC Fiber for use in the PV Field, which license shall be exclusive inside the PV Field, and
(2) the construction and operation of a SiC Fiber factory and perform related knowledge transfer and other services on behalf of Licensee.

Licensor grants an irrevocable, perpetual, worldwide, transferable, sublicensable right and license under the Licensor IP within the PV Field only to
(i) Exploit SiC Fiber,
(ii) Construct and/or Operate the Licensee Facilities and
(iii) copy, distribute, display, perform and modify the Licensor IP for the purpose of engaging in the activities described.
The license granted shall be exclusive, even as to Licensor and its Affiliates, in the PV Field.

License Property
The patents include SIC base CVD process using CO2, and, C coating process.  SiC Fiber means a mono filament produced by the growth of silicon carbide on a substrate filament by chemical vapor deposition, being monofilaments usually greater than 70 microns diameter.

SiC Fiber is a 10 µm diameter crystalline silicon carbide (SiC) fiber with the highest temperature capability of any available.

Field of Use
The PV Field means the field of photovoltaics, solar power or any similar field of Technology that relates to the conversion of electromagnetic radiation (e.g., sunlight) directly into electricity, and, any field of Technology, including so-called String Ribbon Technology, that relates to a technique in which a sheet of material, including semiconductor material (e.g., silicon, germanium, etc.), metals (e.g., palladium, platinum, etc.), salts and/or certain man-made gemstones are grown directly from the molten stage, whether the sheet is grown in a vertical or horizontal direction.

IPSCIO Record ID: 215209

License Grant
For the Exclusive license, Licensor grants an exclusive, nonsublicensable, perpetual license under its Proprietary Rights in the Licensor Technology, to use, make, have made, including by Defense Microelectronics Activity (DMEA), market and sell Licensed Products only to the Permitted Market.

For the non-exclusive license, Licensor grants a nonexclusive, nonsublicensable, perpetual license under its Proprietary Rights in Licensors Technology for magnetic quadrapole and magnetic sensing applications for underwater and underground object detection applications, including patent(s), to use, make, have made, market and sell Licensed Products only to the Permitted Market.

License Property
The Licensed products include the technology related to high temperature superconductive (HTS) electronics and cryoelectronics and associated packaging and cryogenics owned by Licensor.

The Permitted Market will mean the U.S. government or any state, local or foreign government or any agency, department, bureau or other subdivision or instrumentality thereof, except that the foreign market will be limited to military, intelligence and law enforcement entities.

Cryoelectronics or cryolectronics is the study of superconductivity under cryogenic conditions and its applications.

    Patent No.       Title                                             Rights of Others

            ———-       —–                                             —————-

            5,090,819    Superconducting Bolometer

            5,157,466    Grain Boundary Junctions in HTS Films

            5,207,884    Superconductor Deposition System

            5,219,826    Superconducting Junctions and Method of Making Same

            5,241,828    Cryogenic Thermoelectric Cooler

            5,280,013    Method of Preparing HTS Films on Opposite Sides of a Substrate

            5,449,659    Method of Bonding Multilayer Structures of Crystalline Materials                                
            5,130,294    High Temperature Superconductor – Calcium Titanate Sapphire Structures
            5,131,282    High Temperature Superconductor –  Strontium Titanate Sapphire Structures
            5,233,500    Package for Cascaded Microwave Devices
            5,651,016    Ultrahigh Speed Laser
            5,696,392    Improved Barrier Layers for Oxide Superconductor Devices and Circuits                  
            5,831,278    Three-Terminal Devices with Wide Josephson Junctions and asymmetric Control Lines

Field of Use
This agreement is for processes and apparatus relating to the cryoelectronics industry, limited to the military, intelligence and law enforcement entities.

IPSCIO Record ID: 362474

License Grant
Licensor grants a worldwide license under Licensors Project-Related Technology to
–  use, make, have made, import, offer to sell, sell, lease and otherwise dispose of products incorporating Licensor Project-Related Technology. This license is exclusive with respect to coated glass used for photovoltaics or solar thermal applications provided that Licensee continues to ship an agreed-upon minimum amount of licensed products. After all elements of the Task Order are completed and the parties have more information about the expected time for development and commercialization of the products subject to the exclusive license, the parties agree to negotiate in good faith to establish the minimum targeted volume and date on which the minimums will begin to apply. This license is non-exclusive for all other products not used for photovoltaics or solar thermal applications but which incorporate Licensors Project-Related Technology.
License Property
This task relates to
–  Three main project sets Silver Improvement, Transparent Barrier Layers (TBL) and Heat Stable Dielectrics. Silver Improvement and Transparent Barrier Layers are discussed together and Heat Stable Dielectrics.
–  Monolithic Low E Development Barrier layers and silver layer materials selection.
–  Low Index AR Sol Gel Anti-Reflective Coating Development.

The Intellectual Property is related to the development of innovative coated glass products targeting a variety of end applications.

Field of Use
Licensee is at the forefront of innovation including development of high performance glass coatings and other advanced products.

The field is commercial production of large area glass coatings. In addition, the parties have agreed to define a narrower sub-Field. The sub-Field is low emissivity glass and solar control coated glass for use in residential windows, skylights and roof windows; commercial windows, curtainwalls and roof systems (Low-E and Solar Control Coating ).

IPSCIO Record ID: 28130

License Grant
Licensor grants to Licensee a non-sublicensable, worldwide, royalty-bearing License under the Licensed FLT Fine Line Technology Patents, to make or have made, use, offer for sale, sell, and import Licensed FLT Products.
License Property
Licensed FLT Products means capacitive touch sensors comprising fine lines of copper metal printed on flexible plastic film.

Fine Line Technology Patents. Technology – A conductive metal layer is used in the manufacture of printed circuit boards, aerials, and antennae such as those found in mobile telephones, radio frequency identification devices (RFIDs), smart cards, contacts for batteries and power supplies, arrays of contacts for flat screen technologies (liquidcrystal displays, light emitting polymer displays and the like), electrodes for biological and electrochemical sensors, smart textiles and decorative features.

US Patent No 8435603  Formation of solid layers on substrates
US Patent No 8519048  Formation of solid layers on substrates

Field of Use
Licensee wishes to use the Licensed FLT Patents to commercialize the Licensed FLT Products. A conductive metal layer is used in the manufacture of printed circuit boards, aerials, and antennae such as those found in mobile telephones, radio frequency identification devices (RFIDs), smart cards, contacts for batteries and power supplies, arrays of contacts for flat screen technologies (liquidcrystal displays, light emitting polymer displays and the like), electrodes for biological and electrochemical sensors, smart textiles and decorative features.

IPSCIO Record ID: 553

License Grant
Licensor grants to Japanese Licensee a non-exclusive, except during the Exclusivity Period of ten years from the transaction date, transferable, perpetual license to use the Licensee Technology in the FPD Field to make and have made, use, sell, offer for sale and import FPD Film Thickness Measurements Systems and to provide technical support and service (including the sale and for such FPD Film Thickness Measurement Systems.
License Property
Licensed IP means the Nanometrics Technology, the Nanometrics Software and the Licensed Marks.

Licensed Marks means the trademarks of Nanometric.

Licensor designs, develops, manufactures, sells and supports a Film Thickness Measurement System optimized and specially adapted for the measurement of thin films on FPD, including its “NanoSpec” series of products (“FPD Film Thickness Measurement System”).  â€œFPD” means a liquid crystal display, plasma display, field emission display, electroluminescent display, LTPS, HTPS, LCOS or other like flat panel display. FPD excludes devices and technologies other than FPD, including without limitation any and all semiconductor devices.

Field of Use
FPD Field means the development, manufacture, marketing, distribution and sale of Film Thickness Measurement Systems and enhancements thereto for application to FPDs.
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