Showing results: 61 - 75 of 78 items found.
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SHF Communication Technologies AG
SHF has been active in the design and production of broadband RF-microwave amplifier. The outstanding performance makes our amplifiers suitable for a wide variety of applications in R&D. This includes not only optical communications, but also satellite communications, high-speed pulse experiments, data transmission, quantum communication, radar and antenna measurements.
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Eye-BERT Micro LR -
Spectronix
The Eye-BERT Micro LR is a low cost, easy to use test solution offering BER testing at any rate between 6.312 and 125Mbps on either optical or electrical interfaces. Features include: continuously variable bit rate, user programmable pulse generator, internal CDR with retimer mode, bit rate measurement, and recovered clock output. The Unit is supplied with anti-skid bumpers for bench use, and is small enough to be integrated into larger systems for dedicated link verification.
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Analog Devices Inc.
Analog Devices Thermoelectric Cooler Controllers work with cooler based photonics, offer the smallest size, the best efficiency and the most robust solutions. It has a linear power stage with the linear driver output and a pulse width modulation power stage with the SW output. Depending on the part number, it offers digital PID control or analog PID control or both. Our TEC controllers support a variety of MSA based optical modules such as SFP, SFP+,QSFP+, CFP/CFP-2/CFP-4 and QSFP28.
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Harpia-TA -
Light Conversion Ltd.
The transient absorption spectrometer HARPIA offers a sleek and compact design together with intuitive user experience and easy day-to-day maintenance meeting the needs of today's scientific world. Adhering to the standards raised by the OPRHEUS line of devices, the entire spectroscopic system is contained in a single monolithic aluminum casing that inherently ensures excellent optical stability and minimal optical path for the interacting beams. HARPIA can be easily integrated with both PHAROS / ORPHEUS and Ti:Sa / TOPAS laser systems. HARPIA features market leading characteristics such as 10-5 resolvable signals along with other unique properties such as the ability to work at high repetition rates (up to 1 MHz) when used with PHAROS / ORPHEUS system. High repetition rate allows measuring transient absorption dynamics while exciting the samples with extremely low pulse energies up to several nanojoules.
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Shenzhen Graigar Technology Co.,Ltd.
Measurement of the speed of a rotating shaft is a common requirement in many industrial and laboratory applications. Such measurements have usually been carried out in the past with the help of contact type tachometers with friction drive. More recently digital optical non-contact tachometers have been designed which count the reflected pulses from a white patch on the shaft and then display the speed in rpm. The light source is usually a filament lamp operating with dry cells leading to limited life and illumination. A similar ideawith magnetic pick-up from a particular area of the shaft has also been used for speed measurement.
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LG-930 -
Ono Sokki
The LG-900 series detectors are reflection type optical (LG-916) and photoelectric detectors developed for medium distance detection applications. The LG-916 adopts glass fiber at the tip end and can be protective enough against the external turbulent light because of pulse modulation system as the light projection source. The LG-930 also uses a pulse-lighting method, it is practically unaffected by disturbance light, furthermore, featuring a hybrid structure with the all light-projecting, light-receiving, amplifying, and waveform-shaping sections built into the unit to offer a compact design with easy-to-operate functions. By simply attaching the reflection mark to a rotating object, the detectors can detect the rotation of the object without actually touching the object.
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PZ2120A -
Keysight Technologies
The Keysight PZ2120A is a cost-effective, high-speed precision source / measure unit (SMU) featuring best-in-class narrow pulse width, fast Digitizer Mode, and seamless current measurement ranging. It enables narrow-pulsed measurements and fast dynamic measurements with a wide dynamic range for a wide range of emerging applications such as vertical-cavity surface-emitting laser (VCSEL) optical devices and integrated circuit (IC) testing. In addition, its low measurement noise performance enables measurements with shorter aperture times, and its seamless current measurement ranging function enables a wide dynamic range and eliminates range change time, which improves test throughput.
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CP-5110B Detector/CA-6000B Amplifier -
Ono Sokki
CP / CA series are systems that detect the rotation angle of the engine crankshaft composed of CP-5110B Fiber Optic Crank Angle Detector, CA-6000B Crank Angle Amplifier and CP-5120 / 5130 Slit disk.CP-5110B Fiber Optic Crank Angle Detector makes it possible to detect the crank angle required for various engine performance tests such as combustion analysis with high accuracy and high response. As it has a light projecting and receiving method with an optical fiber, it provides outstanding vibration and noise resistance without a built-in electric circuit in the detector.CA-6000B Crank Angle Amplifier inputs a signal of crank angle detector and outputs a TTL level angle signal and a 1P / R pulse signal.
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Analog Devices Inc.
Analog Devices Clock synchronizers are designed for wired networking applications, providing the clock redundancy functionality needed to maximize system uptime. Our technology supports clock synchronization with common standards, including 1 pulse per second (PPS) output signal from a GPS receiver. GPS signals are broadly available and utilize an extremely stable atomic clock as its time base, but they are often noisy. Systems rely on the IEEE1588 timing protocol to establish synchronous communications across the wired network, including synchronous Ethernet and synchronous digital hierarchy (SDH) to optical transport network (OTN) mapping/demapping. The IEEE1588 protocol has emerged as the preferred method for Clock synchronizing systems throughout both computer networks and local area networks (LAN).
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NFO series -
Radiantech, Inc.
The NFO OTDR unit injects the laser pulse into the fiber under test and picks up scattered and reflected optical signals by an avalanche photodiode (APD). The unit accepts remote commands from Internet to control all related timing and data acquisition processes. Maximal three wavelengths are available at the NFO with options on 1310, 1490, 1550, and 1625 nm. NFO also has options on dynamic ranges so users can select the most cost effective units for their demands. Radiantech provides an easy use API (Application Program Interface) for NFO so users can design and build their own AP for NFO. Standard NFO API package is for Windows XP or higher. Please contact Radiantech’s sales person to inquire API for another OS.
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Edmund Optics Inc.
These high stability variable frequency optical choppers each include a set of chemically blackened photoetched chopping discs. The mini chopper is an excellent choice for applications requiring a compact package. The chopping discs come in a variety of slot apertures and allow operation. Beam diameter is limited to 0.75mm when using the 200-slot disc and 1.0mm when using the 40 slot mini disc. The easy-to-interchange blades are made of non-magnetic, half hard brass and can be used in combination. Chopping frequency is set by adjusting a ten-turn dial or by applying an external DC voltage to the BNC input. Reference output is a TTL pulse and is in-phase with chopping action. The 5 digit led display gives a direct read-out of the chopping frequency. Power: 90-130V or 180-260V; 50/60Hz; 12VA max. Power supply included. Choppers are often used together with lock-in amplifiers.
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783762-02 -
NI
PXIe, ±200 V, ±1 A DC, ±3 A Pulsed, Up to 40 W DC, 10 fA Precision System PXI Source Measure Unit - The PXIe-4135 is a high-precision, system source measure unit (SMU). It features 4-quadrant operation and sources up to 40 W of DC power and can pulse up to 500 W. Analog-to-digital converter technology and native triaxial connectors help you perform high-precision measurements with a current resolution of 10 fA or high-speed acquisitions up to 1.8 MS/s. The module also can maximize stability and measurement accuracy with SourceAdapt technology, which you can use to tune the transient response to match the characteristics of any load. The PXIe-4135 is ideal for a broad range of applications including manufacturing test, board-level test, and lab characterization with devices such as ICs, power management ICs (PMICs), and RFICs and discrete devices including LEDs and optical transceivers.
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783762-01 -
NI
PXIe, ±200 V, ±1 A DC, ±3 A Pulsed, Up to 40 W DC, 10 fA Precision System PXI Source Measure Unit - The PXIe-4135 is a high-precision, system source measure unit (SMU). It features 4-quadrant operation and sources up to 40 W of DC power and can pulse up to 500 W. Analog-to-digital converter technology and native triaxial connectors help you perform high-precision measurements with a current resolution of 10 fA or high-speed acquisitions up to 1.8 MS/s. The module also can maximize stability and measurement accuracy with SourceAdapt technology, which you can use to tune the transient response to match the characteristics of any load. The PXIe-4135 is ideal for a broad range of applications including manufacturing test, board-level test, and lab characterization with devices such as ICs, power management ICs (PMICs), and RFICs and discrete devices including LEDs and optical transceivers.
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783761-02 -
NI
PXIe, ±200 V, ±1 A DC, ±3 A Pulsed, Up to 40 W DC, 100 fA Precision System PXI Source Measure Unit - The PXIe-4137 is a high-precision, system source measure unit (SMU). It features 4-quadrant operation and sources up to 40 W of DC power and can pulse up to 500 W. Analog-to-digital converter technology helps you perform high-precision measurements with a current resolution of 100 fA or high-speed acquisitions up to 1.8 MS/s. The module also can maximize stability and measurement accuracy with SourceAdapt technology, which you can use to tune the transient response to match the characteristics of any load. The PXIe-4137 is ideal for a broad range of applications including manufacturing test, board-level test, and lab characterization with devices such as ICs, power management ICs (PMICs), and RFICs and discrete devices including LEDs and optical transceivers
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783761-01 -
NI
PXIe, ±200 V, ±1 A DC, ±3 A Pulsed, Up to 40 W DC, 100 fA Precision System PXI Source Measure Unit - The PXIe-4137 is a high-precision, system source measure unit (SMU). It features 4-quadrant operation and sources up to 40 W of DC power and can pulse up to 500 W. Analog-to-digital converter technology helps you perform high-precision measurements with a current resolution of 100 fA or high-speed acquisitions up to 1.8 MS/s. The module also can maximize stability and measurement accuracy with SourceAdapt technology, which you can use to tune the transient response to match the characteristics of any load. The PXIe-4137 is ideal for a broad range of applications including manufacturing test, board-level test, and lab characterization with devices such as ICs, power management ICs (PMICs), and RFICs and discrete devices including LEDs and optical transceivers.
