Quartz Crystal Microbalance
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Product
Oven Controlled Crystal Oscillators
OCXOS
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Oven Controlled Crystal Oscillators (OCXOs) deliver the ultimate piezo electric performance with stabilities down to less than ±1ppb. An OCXO offers frequency stabilities even tighter than those offered by a TCXO.
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Product
Temperature Compensated Crystal Oscillators
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Temperature Compensated Crystal Oscillators by Pasternack
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Product
voltage controlled crystal oscillator
VCXO
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A VCXO (Voltage Controlled Crystal Oscillator) is a crystal oscillator the output frequency of which is controlled by adding an external control voltage via a frequency control input on a variable capacitance component such as a varactor diode connected in parallel to a load capacitance (CL). Epson VCXOs are divided into two types according to Voltage-Frequency (V-F) characteristic slopes depending on the AFC (Automatic Frequency Control) input configuration of the VCXO. One is a VCXO with a positive V-F slope and the other is a VCXO with a negative V-F slope. Please note that the input voltage of a control circuit will vary according to the individual type, as shown in Figs. 3 and 4. Epson's VCXOs are capable of either, depending on the customer's preference. Epson's VCXOs have been increasingly used for broader applications such as slave oscillators in phased-lock loops, or frequency modulators. Among the above types, a VCXO combined with a TCXO is called a VC-TCXO , respectively. These components have the merit of delicately controlling their output frequency electrically.
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Product
3-Component Quartz Force Rings And Links
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Three-component dynamic force sensors are offered in both ICP® and charge output configurations for dynamic and quasi-static force measurement applications. Each utilizes an array of precision aligned, quartz sensing crystals. Measurements along the z-axis are proportional to applied compression, tension and impact forces. Measurements along the x and y axes are proportional to shear forces that are imposed upon preloaded crystals by the test fixture.
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Product
Quartz Sensor Fiber Head
SLG-1001
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Pure quartz fiber stands aving high UV transmission properties are used. This is the quartz sensor fiber head exclusive for the UV MONITOR SERIES excelling in flexibility and durability. The exclusive use receptacle for the light receiving inlet is also available.
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Product
Quartz Crystall Oscillators
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Superior crystal oscillator precision is required for both time and frequency in precision instrument applications such as synthesizers, counters and spectrum analyzers.
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Product
Quartz Impact Force Sensors
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Impact-style sensors are specifically designed for impact force measurements. The sensor is typically mounted in a free-standing manner with the installed impact cap directed toward the oncoming object with which it will collide.
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Product
Electro-Optic OH1 Crystals
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OH1 and other high-quality organic crystals are produced and optically prepared in the facilities of Rainbow Photonics in Switzerland.
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Product
Temperature Compensated Crystal Oscillators
TCXOS & VCTCXOS
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Temperature Compensated Crystal Oscillators (TCXO) deliver excellent temperature characteristics combined with low power consumption and fast warmup. Voltage Controlled Temperature Compensated Crystal Oscillators (VCTCXO) combine the same excellent temperature characteristics, low power consumption and fast warmup with a voltage control function to allow precise tuning of the output frequency after PCB assembly and later, to compensate for any effects of aging as well as offering the ability to pull back to nominal frequency where there is a change of circuit conditions
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Product
Voltage Controlled Crystal Oscillators
VCXOS
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Voltage Controlled Crystal Oscillators (VCXOs) are used for fine adjustment of the operating frequency and are normally used in conjunction with a phase locked loop.
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Product
Electro-Optic DSTMS Crystals
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DSTMS and other high-quality organic crystals are produced and optically prepared in the facilities of Rainbow Photonics in Switzerland.
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Product
Quartz Crystals
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Quartz crystal resonators are used in a wide range of electronic applications that require timing devices. The quality of the quartz crystal blank is critical to the performance of quartz crystal units and the high Q factor of quartz means that tight stabilities can be achieved; this is key to ensuring microprocessor timing circuits work correctly within customer’s designs.
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Product
SOSA Aligned 1-Slot 3U VPX Development Chassis for Quartz Products
Model 8257A
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- Ideal development platform for Mercury's- Model 5553 8-Channel A/D & D/A Zynq UltraScale+ RFSoC Gen 3 - Processor - SOSA Aligned 3U VPX- Model 5550 8-Channel A/D & D/A Zynq UltraScale+ RFSoC Processor - SOSA Aligned 3U VPX- Access to data and control planes provided through RTM- 1-slot, small footprint development chassis- Rear panel access to RF I/O, 100 GigE and chassis manager- Supports VITA-67.3C- Compatible with the Quartz product family- Pentek's Quartz Family of Xilinx Zynq UltraScale+ RFSoC FPGA Products Video- Live Signal Acquisition Video: Quartz Model 5950 and Model 6001 RFSoC boards- Pipeline Newsletter: Strategies for Deploying Xilinx's Zync UltraScale+ RFSoC- Please refer to the product datasheet for Installed FPGA IP Module details
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Product
2- and 4-Mirror Floating Zone Crystal Furnaces
IR Image Furnace
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The high-performance, compact IR Image Furnace from Quantum Design offers unsurpassed performance in a convenient, stand-alone design. Rivaling much larger and more costly IR furnaces, it uses the Floating Zone (FZ) method to promote single crystal growth from a polycrystalline rod. This method has been shown to be extremely effective for a wide class of materials. Now, more easily than ever before, you have the ability to synthesize superior quality single crystal specimens in your own laboratory. This furnace is available in both 2- and 4-mirror versions.
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Product
3-Component Quartz Force Rings
260 Series
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Three-component quartz force ring sensors are capable of simultaneously measuring dynamic force in three orthogonal directions (X, Y, and Z). They contain three sets of quartz plates that are stacked in a preloaded arrangement. Each set responds to the vector component of an applied force acting along its sensitive axis. 3-component ring force sensors must be statically preloaded for optimum performance. Preloading provides the sensing elements with the compressive loading required to allow the proper transmission of shear forces. Versions are available with ranges up to 10k lb (45k N) in the z-axis (perpendicular to the top surface), and up to 4000 lb (18k N) in the x-and y (shear) axes. Both ICP® and charge output styles are available.
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