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GaN
Gallium Nitride is a stable wide bandgap semiconductor material. AKA: Gallium Nitride
See Also: LED, Transistor
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DL-ISO 2500 Vpp Square Pin Tip
DL-ISO-2500V-TIP
- Ideal for GaN and SiC devices- Highest system accuracy- Fastest rise time- High CMRR - 160 dB
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Pulsed SSPA
Exodus Advanced Communications
Exodus Pulse SSPA products feature LDMOS and GaN discrete and Chip & Wire technologies covering frequency ranges from 1MHz to 12GHz at power levels exceeding 1KW for Modules and 10KW for Systems.
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Silicon & Compound Wafers
Compound semiconductors are undergoing a major expansion addressing many new applications and using various materials such as SiC, GaN, GaAs and others, to improve the performance of new devices in several segments such as Power and Face Recognition.
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Broadband SSPA
Exodus Advanced Communications
Exodus Broadband SSPA products feature LDMOS, GaN, GaAsFET discrete and Chip & Wire Hybrid technologies covering one octave through decades frequency ranges from 1MHz to 24.5GHz at power levels exceeding 500W for Modules and 3KW for Systems.
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Defect Inspection Systems
Candela® defect inspection systems detect and classify a wide range of critical defects on compound semiconductor substrates (GaN, GaAs, InP, sapphire, SiC, etc.) and hard disk drives, with high sensitivity at production throughputs.
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Communications/Data Link Amplifiers
Amplifiers specific to the Communications systems include a wide range of Solid State Power Amplifiers (SSPAs) and Low Noise Amplifiers (LNAs) originally from Paradise Datacom and a range of organically developed products within TMS. Satcom SSPAs are considered a core competence of Paradise Datacom's product line who have invested heavily in converting it's complete amplifier offering from GaAs to GaN from C-Band all the way to Ka-Band.
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GaN substrates
Sumitomo Electric Industries, Ltd.
Gallium Nitride (GaN) substrates are widely used for optical devices in the blue-violate to green ranges due to their excellent material characteristics. In recent years, GaN substrates have been drawing attention for power devices. Many development projects are underway.
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Wideband GaN Amplifiers
The Teledyne RF & Microwave family of GaN-based amplifiers maximizes power density and efficiency, and establishes a new benchmark for small size in the 0.1 to 6.0 GHz range that operates over multi octave. With dimensions of 2.5"L x 2"W x 0.42"H at only 2.1 cubic inches, these modular, non-ITAR GaN amplifiers maintain the rugged design characteristics needed for harsh airborne and land based requirements.
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Solid-State RF amplifier module for High Power Testing
Exodus Advanced Communications
Exodus introduces the AMP1071 - a Solid-State RF amplifier module covering the entire ultra-wide 2.0-20.0GHz frequency range instantaneously at 20W CW minimum. Using State of the Art GaN devices, the AMP1071 operates from a 32VDC source at less than 10A consumption. This module is suitable for use with all single channel modulation standards and applications requiring high power and ultra-wide band coverage. It has built-in protection circuits, high reliability and ruggedness. Typical applications include High Power Testing, EMI/RFI, EW and Communications and Jamming.
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Substrate Manufacturing
KLA’s substrate manufacturing portfolio includes defect inspection and review, metrology and data management systems that help substrate manufacturers manage quality throughout the wafer fabrication process. Specialized wafer inspection and review tools assess wafer surface quality and detect, count and bin defects during production and as a critical part of outgoing wafer qualification. Wafer geometry systems ensure the wafer shape is extremely flat and uniform in thickness, with precisely controlled wafer shape topography. Data analysis and management systems proactively identify substrate fabrication process excursions that can lead to yield loss. KLA’s substrate manufacturing systems support process development, production monitoring and final quality check of a broad range of substrate types and sizes including silicon, prime silicon, SOI, sapphire, glass, GaAs, SiC, GaN, InP, GaSb, Ge, LiTaO3, LiNBO3, and epitaxial wafers.
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Microscope Photoluminescence Spectrometer
Flex One
Photoluminescence (PL) is the light emission from a material under the excitation by ultraviolet, visible or near infrared radiation. In semiconductor luminescent property measurements, the sample (e.g. GaN, ZnO, GaAs etc.) was usually excited by a laser (with a wavelength of 325 nm, 532 nm, 785 nm etc.), and its PL spectrum is measured to analyze the optical physical properties, such as the band gap width etc.. Photoluminescence is a high sensitivity, non-destructive analysis method, which can provide the information about the structure, composition and surrounding atomic arrangement of materials. Therefore, it is widely used in physics, materials science, chemistry and molecular biology and other related fields.
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500 MHz 60 V Common Mode Differential Probe
DL05-HCM
60 V of common mode and 80 V differential input range with 1 GHz of bandwidth, make these probes ideal for lower voltage GaN power conversion measurements. The 60 V of common mode is well suited for handling any float of the battery and bulk/absorption voltage during charging, while the 80 V differential input range provide margin for any overshoot.
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RF Amplifiers up to 2500 MHz
L and S Band 1,2,4, and 8 Kilowatt rack mount solid state microwave amplifiers ideal for CW and pulse TWT amplifier replacement utilizing GaN technology and rivals the TWT amplifier in size and weight. Also available is our broad line of high power modules including 25, 50, and 100 watt pallets for integrating into your own power amplifier design.
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GaN Power Amplifiers > 5W
Macom Technology Solutions Holdings Inc.
MACOM GaN RF power amplifier solutions are designed with the latest GaN-on-SiC and GaN-on-Si technologies. Our MACOM PURE CARBIDE series of GaN-on-SiC power amplifiers offers high performance and reliability for the most demanding applications. Our expanding GaN portfolio is designed to address the challenging requirements of Aerospace & Defense, Industrial, Scientific and Medical applications and 5G wireless infrastructure. MACOM GaN products deliver output power levels ranging from 2 W to over 7 kW and exhibit best in class RF performance with respect to gain and efficiency. For sensitive Aerospace & Defense applications MACOM can offer a US only supply chain with AS9100D Certification.
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Dynamic Test Systems
H3TRB | HTGB (HTGS) | RTGB (RTGS)
Durability and reliability of wide-bandgap materials such as SiC and GaN are an important topic. The focus here is on new failure mechanisms whose effects are not visible with traditional H(3)TRB/HTGS – but which nevertheless have an influence on the real application.
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High-Power CW Amplifiers
Our family of solid-state power amplifiers (SSPAs) utilizes proprietary technology and a proven building block approach that enables rapid customization to specific requirements. The world-class design team understands the tradeoffs between GaAs versus GaN and FET versus MMIC to quickly achieve the right design for the right problem. Whether you need a connectorized compact GaN SSPA or an integrated SSPA assembly, we have the technical know-how to deliver on-time and on-budget.
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Solid State GaN (Gallium Nitride) Amplifiers
Fairview Microwave’s solid state GaN (Gallium Nitride) power amplifiers (also called SSPAs) feature broad frequency bands ranging from 30 MHz to 7.5 GHz and very high gain levels from 43 to 60 dB. These GaN SSPAs also show impressive harmonic response (-15 to -20 dBc) under worst case conditions. Saturated output power levels range from 10W to 100W with 20% to 35% Power Added Efficiency (PAE). All of our high power solid state GaN amplifiers from Fairview have internally regulated single voltage supplies. Our GaN SSPAs are designed to withstand environmental conditions such as humidity, altitude, shock and vibration with an operating temperature ranges from -40°C to +85°C. Some models are also equipped with integrated heat sinks and cooling fans. Most designs are EAR99.
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60 V Common Mode Differential Probes
The 60 V Common Mode Differential Probes are the ideal probes for lower voltage GaN power conversion measurement with the highest accuracy, best CMRR, and lowest noise.
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High Throughput Test Platform for Multi-Site & Index Parallel Applications
ETS-88
The ETS-88 is an optimal test platform for testing a wide variety of devices including: simple analog, high precision, high voltage, high current / power, automotive, video, audio, complex mixed-signal, as well as emerging power processes like SiC and GaN.
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DL-ISO 2 Vpp MMCX Tip
DL-ISO-2V-TIP
- Ideal for GaN and SiC devices- Highest system accuracy- Fastest rise time- High CMRR - 160 dB
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250 MHz 60 V Common Mode Differential Probe
DL02-HCM
60 V of common mode and 80 V differential input range with 1 GHz of bandwidth, make these probes ideal for lower voltage GaN power conversion measurements. The 60 V of common mode is well suited for handling any float of the battery and bulk/absorption voltage during charging, while the 80 V differential input range provide margin for any overshoot.
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High Voltage Fiber Optic Probe, 150 MHz Bandwidth
HVFO108
- Ideal for GaN and SiC devices- Highest system accuracy- Fastest rise time- High CMRR - 160 dB
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DL-ISO 200 Vpp MMCX Tip
DL-ISO-200V-TIP
- Ideal for GaN and SiC devices- Highest system accuracy- Fastest rise time- High CMRR - 160 dB
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DL-HCM Series Accessories Kit with Probe Holder, Micro IC Grabbers (Qty. 2), and Y-Banana Adaptor
DL-HCM-Acc-Kit
60 V of common mode and 80 V differential input range with 1 GHz of bandwidth, make these probes ideal for lower voltage GaN power conversion measurements. The 60 V of common mode is well suited for handling any float of the battery and bulk/absorption voltage during charging, while the 80 V differential input range provide margin for any overshoot.
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Rad Hard GaN FETs
Wide band gap semiconductor technologies such as Gallim Nitride Field Effect Transistors (GaN FETs) have been gaining interest for power management and conversion in space applications. These devices feature higher breakdown voltage, lower RDS(ON) and very low gate charge enabling power management systems to operate at higher switching frequencies while still achieving higher efficiency and a smaller solution footprint. There is an additional benefit from GaN devices that make them attractive to the space market. These devices are inherently immune to total ionizing dose radiation.
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DL-ISO 1000 Vpp Square Pin Tip
DL-ISO-1000V-TIP
- Ideal for GaN and SiC devices- Highest system accuracy- Fastest rise time- High CMRR - 160 dB
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High Voltage Optically Isolated Probe, 700 MHz Bandwidth. Includes soft-carrying case.
DL07-ISO
The DL-ISO enables highest confidence in GaN and SiC device characterization with highest accuracy, best signal fidelity, and comprehensive connectivity.
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High Frequency Amplifiers (> 6 GHz)
Qorvo's portfolio of amplifiers that operate over 6 GHz includes both GaAs and GaN devices, available in die and package forms.
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Rad Hard GaN Drivers
The space market has been driving towards more efficient power management solutions. Part of the drive includes the use of Gallium Nitride Field Effect Transistors (GaN FETs) for power conversion. GaN FETs have higher power conversion efficiency and have more natural immunity to radiation, due to them being wide-bandgap semiconductors. Equally important is the use of the correct driver that will allow reliable operation and maximize the benefits of the GaN FETs. Some of the key driver requirements are: a well-regulated gate drive voltage; high source/sink current capability and a split driver output stage.
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Amplifiers
We have designed and manufactured amplifiers using all major semiconductor materials, LDMOS, GaN, GaAs, and InP, to produce narrow, wideband, and pulse, receive and transmit amplifiers from 1 MHz to 220 GHz and power levels from mW to over 10 kW.
