PAM XIAMEN offers Silicon Ingots.
Material Description
3″Ø×174mm p-type Si:Ga[100] (1.77-2.13)Ωcm, Ingot “As-Grown”, (82-85)mmØ, RRV=8%, Oxygen=6.2E17/cc
4″Ø×(504+504+523+147+144)mm, p-type Si:B[111], As-Grown, made by Crysteco (5 ing 6c, 10b(Gnd 1F), 14a(Gnd 1F), 21Aa, 30d(Gnd 1F))
3″Ø ingot p-type Si:B[111] ±0.5°, Ro: 1-10 Ohmcm, As-Grown, (3 ingots: 217mm, 32mm, 169mm)
3″Ø×36mm ingot, p-type Si:B[211]±2°, [...]
2019-03-08meta-author
We have investigated the photoluminescence mapping characteristics of semi-insulating (SI) InP wafers obtained by annealing in iron phosphide ambience (FeP2-annealed). Compared with as-grown Fe-doped and undoped SI InP wafers prepared by annealing in pure phosphorus vapour (P-annealed), the FeP2-annealed SI InP wafer has been [...]
2019-11-11meta-author
PAM XIAMEN offers PbTe single crystal substrate.(Not sell it temporarily)
Lead telluride (Phoebe) is a compound of lead and tellurium (PbTe); it is a narrow gap semiconductor. It occurs naturally as the mineral altaite.
It is often alloyed with tin to make lead tin telluride, [...]
2019-05-14meta-author
PAM XIAMEN offers 2″ Silicon Wafer.
Material
Orient.
Diam.
Thck
(μm)
Surf.
Resistivity
Ωcm
Comment
n-type Si:P
[110]
2″
250
P/E
FZ ~50
PF<111> SF 134°
n-type Si:P
[110]
2″
900
P/E
FZ 50-100
1 F @ <111> only
n-type Si:P
[110]
2″
280
P/P
FZ 16-30
1 F @ <111> only
n-type Si:P
[110]
2″
1000
P/P
FZ 15-18
1 F @ <1,-1,0>
n-type Si:P
[100]
2″
300
P/P
FZ 1,000-1,600
SEMI Prime
n-type Si:P
[100]
2″
300
P/P
FZ 600-1,200
SEMI Prime,
n-type Si:P
[100]
2″
2000
P/E
FZ >600
SEMI Prime, , Individual cst
n-type Si:P
[100]
2″
200
P/P
FZ 500-1,500
SEMI Prime,
n-type Si:P
[100]
2″
300
P/E
FZ >300
SEMI Prime,
n-type Si:P
[100]
2″
500
P/P
FZ >200
SEMI Prime,
n-type Si:P
[100]
2″
300
P/P
FZ 50-110
SEMI Prime,
n-type Si:P
[100]
2″
280
P/P
FZ 20-70
SEMI Prime,
n-type Si:P
[100]
2″
300
P/E
FZ 10-40
SEMI Prime
n-type [...]
2019-03-07meta-author
New research of SiC and GaN technology along with LED technology can be shared, and we can send you paper content if you want. Please see below article title:
No.1 Technologies for Power Electronics and Packaging (SiC & GaN)
1-1.The latest development of SiC power devices
1-2.New Progress of SiC high voltage power electronic devices and applications
1-3.SiC MOSFET Device Structure and Process Study
1-4.Electro-thermal Analysis of 1.2kV-100A SiC JBS Diodes Under Current Overload
1-5.Graphene-on-SiC for gas detection and bio-sensors
1-6.Packaging of high-voltage wide-bandgap power semiconductors
1-7.High power & high temperature IGBT and WIDE bandgap power semiconductor modual package
1-8.Design and TCAD Simulation of Widegap Semiconductor Devices
1-9.GaN Power Devices Beyond 650V and 150C
1-10.High-breakdown voltage GaN HEMTs fabricated on semi-insulating GaN substrates
1-11.A Gate Driver IC for E-mode GaN HEMTs with Reverse Conduction Detection
1-12.Development of Normally-off AlGaN/GaN HFETs for Power Electronics
1-13.High crystal quality GaN-on-Si to achieve excellent isolation and dynamic performance without carbon doping
1-14.200mm/8-inch GaN power device and GaN-IC technology: a new opportunity for wafer suppliers, foundries and IDMs
1-15.200mm 40V-650V E-mode GaN-on-Si Power Technology: from Device, Package, Reliability to System
1-16.GaN, Power the Future
1-17.AlGaN/GaN heterostructure pH sensors with high Al composition in the barrier layer
1-18.In-situ Wafer Cleaning for Pre-Epitaxial Deposition for Next Generation Semiconductor Devices
No.2 Micro-LED and other Novel Display
2-1.A New Concept for Fabricating CMOS-driven, High-Performance MicroLED Displays
2-2.Study on three dimensional thermal transport in micro-LEDs at the level of kW/cm2
2-3.1 bin wavelength uniformity on 200 mm GaN-on-Si LED for micro LED application with precise strain-engineering
2-4.Integration of III-V LEDs with Silicon Thin Film Transistors for Micro-LED Displays
2-5.NAURA product solutions for Mini-LED and Micro-LED
2-6.Driving Micro LED to future Lighting and Display
2-7.Growth and fabrication of semi / non-polar LEDs and Micro-LEDs using nano-patterning technology
2-8.Imaging Light Measurement Device for Subpixel evaluation of Micro-LED and OLED Displays
2-9.China LED Display Application Industry Development Report 2018-2019
2-10.Enabling the Next Era of Display Technologies by Micro LED MOCVD Processing
2-11.Research Progress and Prospects of LED Chips for Next Generation Display Application
2-12.Influence of the Charge Transfer on the Lifetime of Quantum-Dot Light-Emitting Diodes
2-13.Low toxic quantum dots polymer nanocomposites for LED applications
2-14.Micro/Mini-LED: From Backlight to Direct-view Display
2-15.Application of COB Integrated Packaging Technology in UHD LED Display Field
2-16.Prospect analysis of the 4-in-1 technical approach in LED Display Field
2-17.Mini LED, Future Directions and Solutions – from Chipone Technology
2-18.Progress in Cooperation Between LCD and LED Industry
No.3 Technologies for Ultra-Wide Bandgap Semiconductor
3-1.An (AlxGa1-x)2O3 metal-semiconductor-metal VUV photodetector
3-2.Growth and Characterization of Ultra-Wide Bandgap Oxide Semiconductors
3-3.Progress of diamond ultra-wide-band-gap semiconductor material and devices
3-4.Application of Polycrystalline Diamond Micro-nano Powder in SiC Wafer Processing and Its Key Process Technology
3-5.Epitaxial Growth of Hexagonal Boron Nitride Films on AlN/Sapphire Templates by MOVPE
3-6.Preparation and photoelectric properties of BN films by RF-sputtering
3-7.High quality h-BN thin films and their application as flexible buffer layer for III-nitrides epitaxy
No.4 The Technology in Substrate, Epitaxy and Wafer Growth Equipment (SiC&GaN)
4-1.Synchrotron x-ray diffraction-based visualization of lattice-plane tilting of a GaN substrate and epitaxial film
4-2.In situ coherent x-ray studies of surface dynamics during OMVPE of GaN
4-3.Modeling of SiC crystal growth and epitaxy and simulation of GaN Metal Organic Vapor Deposition
4-4.The effect of n-p electrodes upon the p-type conductivity of B0.375GaN/B0.45GaN QW/QB edge emitting laser diode grown over sapphire substrate
4-5.INDUSTRY4.0 as A Major Opportunity for Electronics Processes and Products
4-6.Interrelationship Between Equipment and PVT Crystal Growth in Silicon Carbide
4-7.Advanced Chemical Concentration Control for Fabrication of Devices Using SiC
4-8.The step growth mechanism for 4H-SiC with Improved Single Polytypes
4-9.Investigation of Defect Levels of Al/Ti 4H-SiC Schottky Structures by Deep Level Transient Spectroscopy
No.5 LED Chip, Packaging, and Modules
5-1.Possible Futures for LEDs and LED Packaging
5-2.Beyond Illumination | Latest Photonics Technology, Breakthrough and Application Trend
5-3.Violet Chip Excited White LEDs for Sun-Like Lighting and Horticulture Lighting
5-4.Research and application for warm white LED of high-efficiency tri-color rare earth Phosphors by purple light Excitation
5-5.Recent progress of fluorescent materials for high-power LED
5-6.Simultaneously improve the luminous efficiency and color rendering index of GaN-based white light emitting diodes using metal localized surface plasmon resonance
5-7.Thermal Simulations of a UV LED module with nanosilver sintered die attach process on graphene coated copper substrates
5-8.Recent progress on massive transfer and integration technologies of Mini & Micro-LEDs
5-9.Anisotropic Conductive Paste and Grip Ring Direct process for mini LED die attachment
5-10.Monolithic Integrated Device of GaN Micro-LED with Graphene Transparent Electrode and Graphene Driving Transistor
5-11.GaN/Si LEDs: Towards Longer Wavelength and Smaller Current Density
5-12.Recent Advances in Achieving Ultra-High Efficiency InGaN-based LEDs
5-13.The effect of air-cavity structure on the process of vertical GaN-based light emitting diodes
5-14.A Wavelength Stabilized GaN based Laser Utilizing Distributed Bragg Reflector
No.6 RF Technology and 5G Mobile Communication
6-1.The Epi structure and Process Considerations of 6-inch GaN RF HEMT for 5G applications
6-2.High frequeny GaN HEMTs and MMICs
6-3.5G mm Wave
6-4.High-frequency GaN-on-Si transistors
6-5.Development and trend of 5G RF Devices and Circuits
6-6.High-linearity GaN HEMTs for millimeter-wave applications
6-7.A Highly Integrated Multi-Parameters RF Module for Microwave Semiconductor Testing
6-8.A Compact X-band Pallet Power Amplifier Using GaN MMIC and Discrete FETs with HMIC Technology
No.7 [...]
2019-12-02meta-author
1470 / 1550nm High Power Laser Single Chip
PAM XIAMEN offers 1470 / 1550nm high power laser single chip as follows:
Option1:1.5w:
Item
Parameters
wavelength
1470/1550nm
power
1.5 W
Working current
4 A
Working voltage
1.4 V
Strip width
96 μm
size
1000*500*150 μm
Divergence angle
11/31 degrees
Photoelectric conversion efficiency
26%
Option2: 3w:
Item
Parameters
wavelength
1470/1550nm
power
3 W
Working current
9A
Working voltage
1.5V
Strip width
96 μm
size
2000*500*150 μm
Divergence angle
11/28 degrees
Photoelectric conversion [...]
2020-06-17meta-author