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Thin Film PZT for Semiconductor Application Trends & Technology Update Report

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SOURCE Research and Markets


DUBLIN, Apr. 04, 2014
/PRNewswire/ --Research and Markets (http://www.researchandmarkets.com/research/vfkwkb/thin_film_pzt_for) has announced the addition of the "Thin Film PZT for Semiconductor Application Trends & Technology Update Report" report to their offering.

(Logo: http://photos.prnewswire.com/prnh/20130307/600769)

In September 2013, EPSON has announced its next generation inkjet technology, PrecisionCore, introducing for the first time MEMS inkjet heads manufactured with thin film PZT technology. This announcement has been highly publicized: First, thin film PZT MEMS applications are now on the market, proving the reliability and maturity of this technology! Second, more inkjet head players will soon follow.

Thin film piezoelectric materials are gaining increasingly more importance within the MEMS industry. Although semiconductor manufacturing companies are historically reluctant to introduce such exotic materials into their production lines, every major MEMS foundry nowadays is working on the implementation and qualification of piezoelectric thin film in their MEMS manufacturing processes.

Lead zirconium titanate or PZT (Pb[ZrxTi1-x]O3 with 0=x=1)) is a very interesting ferroelectric material. Depending on its composition, it has the advantage of combining 3 different material properties: high dielectric constant, pyroelectric effect and piezoelectric effect.

Its high dielectric constant property is still extensively being used with the integration of thin film PZT in Integrated Passives Devices (IPDs) and to a lesser extent in Ferroelectric memories (FeRAM). These have been the 2 leading applications for thin film PZT for many years. NXP Semiconductors and STMicroelectronics dominate this IPD market.

The pyroelectric effect of PZT is today being used by Pyreos for thin film PZT based uncooled Infrared detectors, although this thin film PZT based technology remains quite marginal in this field.

The most promising effect of PZT for future applications would certainly be its piezoelectric effect.

Companies like Wavelens and PoLight are extensively working on the introduction of their autofocus based products to the market using thin film PZT technology. This profusion of new MEMS applications using thin film PZT technology is just beginning.

These are complex topics and although many R&D efforts have been made so far by labs, equipment and material suppliers, and device manufacturers, some work remains to be done to achieve robust products for high volume production.

In deposition, 2 technologies are competing: Sol-Gel and Sputtering. Sol-Gel gives better intrinsic film properties as deposited thin film PZT, with good uniformity and higher breakdown voltages. But when considering high volume production, throughput becomes a major consideration and this is where Sol-Gel shows some limitations.


Key Topics Covered:

Glossary

Motivations and objectives of the report

Who should be interested in this report?

Companies cited in this report

Definitions, limitations and methodology

1. Executive summary

2. Focus on ferroelectric definitions and effect

3. Thin film PZT applications

4. Market analysis for thin film PZT applications

5. Thin film PZT market players

6. Thin film piezoelectric deposition techniques & materials

7. Thin film PZT manufacturing challenges

8. R&D European projects on thin film PZT

9. Other piezoelectric materials
 

Companies Mentioned:

  • AIXACT
  • AVX
  • American Elements
  • Applied Materials
  • Argonne Lab
  • BAE
  • Brother
  • CEA Le Ripault
  • Cranfield University
  • DRS
  • Deplhi
  • EPCOS A Member of TDK-EPC Corporation
  • EPFL
  • EPSON
  • Epichem
  • Epiphotonics
  • FLIR
  • Fraunhofer IPMS
  • Fraunhofer ISIT
  • Fujifilm Dimatix
  • Fujitsu
  • GLOBALFOUNDRIES
  • Hammamatsu
  • Heimann
  • Holst Centre
  • Hynix
  • IBM
  • IMEC
  • Imagine Optics
  • Infineon
  • Ipdia
  • Irisys
  • KTH
  • Kojundo lab
  • Korean Institute of Technology
  • L3Com
  • LAAS
  • LG
  • Lemoptix
  • Matsushita
  • Maxim
  • Microsystem lab
  • Microvision
  • Mitsubishi Chemical
  • Murata
  • NXP
  • Nippon Ceramic
  • NovioMEMS
  • OKI
  • ON Semiconductor
  • Oce
  • Oerlikon
  • Olympus
  • OnChip
  • Panasonic
  • Paratek
  • Philips
  • Philips Research
  • PoLight
  • Pulse
  • Pyreos
  • Ramtron
  • Rohm
  • SPTS
  • STMicroelectronics
  • SUSS MicroTec
  • Samco
  • Samsung
  • Semtech
  • Siemens Medical
  • Silicon Sensing Systems Japan
  • Singapore Univ
  • Sintef
  • SolMateS
  • Sonitor
  • Sound Design Technology
  • Symetrix Corporation
  • Tango
  • Technolas Perfect Vision
  • Tegal
  • Texas Instrument
  • Tezzaron
  • Thales
  • Toshiba
  • Tronics Microsystems
  • Tyndall
  • ULIS
  • ULVAC
  • US Army lab
  • VTT
  • Vermont
  • Western Digital
  • WiSpry
  • X-FAB
  • Xaar



For more information visit http://www.researchandmarkets.com/research/vfkwkb/thin_film_pzt_for


Media Contact:

Laura Wood , +353-1-481-1716, press@researchandmarkets.net



 

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