PAM XIAMEN offers Silicon Block size 5x20mm
Si pieces
Size: 5x20mm, thickness 1mm
FZ
R>5000 ohm.cm
For more information, send us email at sales@powerwaywafer.com and powerwaymaterial@gmail.com
2020-04-17meta-author
We are an expert of semiconductor wafers in semiconductor industry, and we offer technology support and wafers selling for thousands of univerisities and industrial customers by our decades experience, including Cornell University, Stanford Univeristy, Peking University, Shandong Univerity, university of south carolina, Caltech Faraon [...]
2022-06-14meta-author
PAM XIAMEN offers Silicon Ingots.
Material Description
FZ 4″Ø×105mm ground ingot, n-type Si:P[111] ±2°, (1-2)Ohmcm
FZ 4″Ø×374mm ground ingot, n-type Si:P[111] ±2°, (429.4-453.7)Ohmcm, MCC Lifetime=11,866µs
FZ 4″Ø×400mm ground ingot, n-type Si:P[111] (446.9-458.9)Ohmcm, MCC Lifetime=10,670µs
FZ 4″Ø ingot Intrinsic Si:-[100], Ro: >20,000 Ohmcm, MCC Lifetime>1,200μs, Ground, (6 ingots: 294mm, 296mm, 296mm, 294mm, 219mm, 112mm)
FZ 4″Ø ingot Intrinsic [...]
2019-03-08meta-author
Xiamen Powerway Advanced Material Co.,Ltd., a leading supplier of GaAsP materials and other related products and services announced the new availability of 2″-3” size is on mass production in 2017. This new product represents a natural addition to PAM-XIAMEN’s product line.Dr. Shaka, said, “We are pleased to offer GaAsP wafers to our [...]
2017-06-15meta-author
Xiamen Powerway offers InSb (indium antimonide) epi wafer with homogeneous structure, which can be used to detect infrared radiation with a wavelength of 8~12um. Homoepitaxial InSb epi wafer on InSb substrate can improve the operating temperature of indium antimonide detector.
InSb epi ready wafer
1. InSb Homogeneous Structures
1.1 [...]
2020-03-25meta-author
At present, P-P+ (boron doped) silicon epitaxial wafers are widely used in the manufacture of large-scale integrated circuits and discrete devices. The requirements for the thickness of P-P+ silicon epitaxial wafers vary with the device type. For making high-speed digital circuits, only about 0.5μm [...]
2022-12-08meta-author