QUANTUM RESEARCH LABS

TECHNOLOGIES MARKETS WAFER FOUNDRY DEVELOPMENT CAPABILITIES PORTAL LOGIN


APPLICATION NOTES  
XYZ QUANTUM LABS XYZ QUANTUM LABS
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
XYZ QUANTUM LABS XYZ QUANTUM LABS
   
   
   
   
   
   
   
   
XYZ QUANTUM LABS XYZ QUANTUM LABS
 


HOME

 
ABOUT STANDARD TECHNOLOGIES HOW TO ORDER NDA FORM
TECHNOLOGY CUSTOM TECHNOLOGIES TERMS OF SALES SITE TERMS OF USE
MANUFACTURING TECHNICAL SUPPORT REGISTER PRIVACY / SECURITY
QUALITY APPLICATION NOTES MAKE PAYMENT SITE MAP
SALES REQUEST FOR QUOTE ORDER STATUS CAREERS
DISTRIBUTORS CHECK INVENTORY DISCLAIMERS SEARCH
SUPPLIERS CUSTOMERS LOG IN ROHS COMPLIANCE NEWS
 
 

QUANTUM RESEARCH LABS   Tel:408-634-2108 Fax: 408-986-8027   QUANTUM RESEARCH LABS  


Last update: Monday, 25-Nov-2019 17:41:29 MST Display settings for best viewing: Current display settings:
Screen resolution: 1024x768 Screen resolution:
Color quality: 16 bit Color quality: bit

© 1990, QUANTUM LABS. All rights reserved. No material from this site may be used or reproduced without permission.






























A die is a small block of semiconductor material, ceramic or glass on which a given circuit function is fabricated. Many dice are manufactured in large batches at the same time on a substrate or wafer in a series of successive photolithographic processes. Upon completion of the manufacturing process, the substrates or wafers are diced in many die. Substrate or wafer singulation also referred as dicing or sawing process is final critical step in bare die manufacturing process. Our company has undertaken the task to redesign and manufacture the future semiconductor and thin film bare die components. Our bare die TECHNOLOGIES are used in assembly of hybrid circuits and are compatible with chip and wire, flip chip, chip scale CSP and surface mount technologies SMD. In today's extreme miniaturization market, there is no more room for the large packages to protect the die. It means that the bare die has to survive on its own without the protection of a package. Known Good Die concept is no longer satisfactory if the die cannot withstand harsh environmental conditions and degrades. The solution developed by our company for known good die for bare die applications is gold interconnection and gold terminations and well-engineered materials that further enhance the die reliability. Our company designs and manufactures standard and custom semiconductor and thin film components for bio-medical, wireless telecommunications, optoelectronics, computing, industrial, military and space and satellite applications. TECHNOLOGIES is a product line of US Microwaves, usmicrowaves.com, . QUANTUM RESEARCH LABS is manufacturer of high reliability microwave integrated circuits  MIC technology. QUANTUM RESEARCH LABS offers a multitude of applied thin film TECHNOLOGIES and microwave semiconductor devices: manufactures and supplies high quality standard microwave thin film circuits and microwave devices using advanced technical ceramics and semiconductor materials; QUANTUM RESEARCH LABS include RF micro devices  for hybrid chip and wire applications; microwave thin film circuits, custom manufacturing from customer's data, spiral chip inductors - ceramic, sapphire and quartz substrate, thin film resistors - ceramic, silicon and quartz substrates, multi-tap thin film resistors - ceramic and silicon substrates, capacitors MIS for chip and wire applications, MNOS capacitors, MOS capacitors, ceramic capacitors, Schottky diodes, PIN diodes, tunnel diodes, SRD diodes, varactor diodes and zero bias diodes, RF NPN and PNP bipolar transistors, high speed LDMOS , VDMOS and T MOSFET s, MMIC - RF IC s silicon and SiGe. TECHNOLOGIES is a product line of SmxSemi, smxsemi.com . QUANTUM RESEARCH LABS, Designs and manufactures standard and custom bipolar and MOS analog devices, semiconductors, analog integrated circuits, discrete components for high performance systems such as cellular/wireless, video amplifiers, heart pacemakers and medical imaging systems. Standard semiconductor components are designed and manufactured for space, medical, telecommunications and military applications only. Company's technology road map is including SiGe epi devices for high speed RF bipolars and high speed fiber optic and optoelectronic applications. As an analog devices and ASIC analog design and manufacturing house, TECHNOLOGIES produces a series of semi-custom bipolar analog devices in arrays that are customized by designing a specific metal interconnection mask. The arrays contain a large number of undedicated active and passive components, i.e. transistors, diodes, resistors, capacitors, MOSFET s, LDMOS, photodiodes, phototransistors, etc. Since wafers are stocked before the metal mask, the custom IC development phase is shorter and far less expensive compared to conventional full custom ICs. Customers may provide own analog design. Optoelectronic components: photodiodes, photodiodes arrays, phototransistors, position sensing devices, optocouplers, optoisolators, photodarlington, high voltage phototransistors output, Schottky infrared detectors. Discrete semiconductors: Schottky diodes, Zenner diodes, TVS, small signal bipolar transistors, high voltage bipolar transistors, matched pair bipolar transistors, small signal JFET s and MOSFET s, MCT (MOS controlled tyristors), IGBT. TECHNOLOGIES is a product line of Semiconwell, semiconwell.com . QUANTUM RESEARCH LABS designs and manufacture standard and custom Integrated Passive Networks - IPN for the personal computer, telecommunications, industrial controls, automotive, avionics. The Integrated Passive Networks are a sum of resistors, capacitors, inductors, diodes and schottky diodes and are available in through hole and surface mounted packages. SEMICONWELL is supplying integrated termination, filters and ESD protection for use in mobile phones, PDAs, personal computers, notebooks, routers, hubs, internet appliances. Standard Devices - Most standard devices include resistors, capacitors, inductors, diodes and schottky diodes networks and are inventoried by the designated part numbers and can be ordered on line, from factory or from distributors. Custom Devices - Custom IPN (Integrated Passive Networks) are manufactured from customer's prints upon request. TECHNOLOGIES QUANTUM LABSrication is handled by HTE Labs that provides Wafer Foundry, R&D support and Specialty QUANTUM LABS Processing to customers from semiconductors and microelectronics industry. Wafer foundry includes the following processes: 20V, 45V, 75V, 25V super-beta and high voltage dielectric isolated bipolar process. R&D support is provided in the following fields of microelectronics: thin film active and passive components technologies, flip chip technology (TiW/Cu/Cu/SnPb), sensor technologies (inertial, pressure, temperature, gas and smoke detectors), optoelectronic technologies and components, discrete and integrated circuits technology development for special applications, LiNbO3 applications like SAW, Ti diffused, light wave guides and Mach-Zender light modulators. Specialty QUANTUM LABS processing: epitaxy, SiGe, epi, diffusion and oxidation, ion implant, LPCVD and PECVD Si3N4, SiO2, platinum silicidation, photo-lithography, plasma etching, silicon micro-machining by KOH anisotropic etch, sputter depositions of Ti/Ni/Ag lift off process, Ti/Pt/Au lift off process, sputter depositions of thin film resistors : SiCr, NiCr, TaN2, silicon wafers back grind and polish followed by trimetal backside sputter depositions, gold backside sputter depositions and alloy : gold electroplating and gold bump.