Showing results: 271 - 285 of 295 items found.
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VDA124RM-12 -
MicroImage Video Systems
Video Distribution Amplifiers (sometimes called a video splitter – not to be confused with a video split screen controller such as our PXD510E split screen controller) are typically used for connecting a camera or other video source to several monitors that do not have “looping” inputs. In this situation, each monitor has a permanent 75 ohm termination. With two non-looping monitors connected together, the line would be double loaded and result in a dim picture on each monitor. Using a Video Distribution Amplifier will solve this problem by driving each monitor individually at 100%.
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BL-VDA124-01 -
MicroImage Video Systems
Video Distribution Amplifiers (sometimes called a video splitter – not to be confused with a video split screen controller such as our PXD510E split screen controller) are typically used for connecting a camera or other video source to several monitors that do not have “looping” inputs. In this situation, each monitor has a permanent 75 ohm termination. With two non-looping monitors connected together, the line would be double loaded and result in a dim picture on each monitor. Using a Video Distribution Amplifier will solve this problem by driving each monitor individually at 100%.
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VDA212RM -
MicroImage Video Systems
Video Distribution Amplifiers (sometimes called a video splitter – not to be confused with a video split screen controller such as our PXD510E split screen controller) are typically used for connecting a camera or other video source to several monitors that do not have “looping” inputs. In this situation, each monitor has a permanent 75 ohm termination. With two non-looping monitors connected together, the line would be double loaded and result in a dim picture on each monitor. Using a Video Distribution Amplifier will solve this problem by driving each monitor individually at 100%.
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VDA106 -
MicroImage Video Systems
Video Distribution Amplifiers (sometimes called a video splitter – not to be confused with a video split screen controller such as our PXD510E split screen controller) are typically used for connecting a camera or other video source to several monitors that do not have “looping” inputs. In this situation, each monitor has a permanent 75 ohm termination. With two non-looping monitors connected together, the line would be double loaded and result in a dim picture on each monitor. Using a Video Distribution Amplifier will solve this problem by driving each monitor individually at 100%.
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VDA212RM-12 -
MicroImage Video Systems
Video Distribution Amplifiers (sometimes called a video splitter – not to be confused with a video split screen controller such as our PXD510E split screen controller) are typically used for connecting a camera or other video source to several monitors that do not have “looping” inputs. In this situation, each monitor has a permanent 75 ohm termination. With two non-looping monitors connected together, the line would be double loaded and result in a dim picture on each monitor. Using a Video Distribution Amplifier will solve this problem by driving each monitor individually at 100%.
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VDA124RM -
MicroImage Video Systems
Video Distribution Amplifiers (sometimes called a video splitter – not to be confused with a video split screen controller such as our PXD510E split screen controller) are typically used for connecting a camera or other video source to several monitors that do not have “looping” inputs. In this situation, each monitor has a permanent 75 ohm termination. With two non-looping monitors connected together, the line would be double loaded and result in a dim picture on each monitor. Using a Video Distribution Amplifier will solve this problem by driving each monitor individually at 100%.
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T2MI -
Stream Labs, JSC
T2-MI Splitter service has been designed for reception of DVB T2-MI stream, extraction in real time of MPEG-TS streams out of it, and transmitting of separated streams via network for further processing by external devices or software applications. Service works either in conjunction with multichannel visual-instrumental monitoring system Stream MultiScreen or system for TV channel compiance recording Stream MultiRec. Input of T2-MI streams is supported by network interface using protocol UDP/MPEG-TS and by interface DVB-ASI provided by capture cards manufactured by Stream Labs or Dektec.
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U5532C -
Keysight Technologies
The U5532C USB power sensor module is specially design for the N5531X measuring receiver. Based on the Keysight USB power sensor and a power splitter, the U5532C provides the N5531X measuring receiver user with a single RF input device covering up to 50 GHz. Using of the U5532C USB power sensor module eliminates the requirement of an external power meter, simplifying the setup process and saving lab space. The measurement integrity and accuracy are guaranteed by the fully defined specification sets. The traceability of measurement uncertainties is also ensured.
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N7745C -
Keysight Technologies
Keysight's popular N7745A optical power meters with eight power-sensor channels provide increased throughput and operational efficiency to meet today's challenges in manufacturing. Designed for characterizing optical multiport components, these optical power meters offer industry-leading solutions for device connectivity, high-speed measurement data acquisition and fast data transfer for post-processing. The multiport power meter enables fast measurement solutions for all multiport devices; for example multiplexers, PON splitters, wavelength selective switches (WSS) and ROADMs, as well as compact setups for simultaneous testing of multiple single-port devices.
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Pasternack Enterprises, Inc.
Pasternack unequal split power tapper product designs are also known as unequal couplers, power dividers or splitters, cross band couplers and signal samplers. Many of our unequal couplers / tapper series are RoHS and REACH compliant. Unequal RF tappers from Pasternack are available with 4.1/9.5, 4.3-10, 7/16 DIN and Type N connector options. These unequal split power tapper components for RF are manufactured to precise specifications required for accurate specified values listed for each product. Unequal split tapper products work with high power of up to 300 watts depending on style. Frequency ratings for unequal power splitter line are wide band components with a 380 MHz to 6 GHz frequency range, based on model selected. Pasternack RF power tappers in unequal design can be ordered with various directivity (dB) values of 4.8dB, 5dB, 6dB, 7dB, 8dB, 9dB, 10dB, 11dB, 12dB, 13dB, 15dB, 16dB, 20dB, 30dB depending on model. As with our other over 40,000 RF, microwave and millimeter wave components from Pasternack, this unequal split power tapper/coupler/divider series for RF is in-stock. These unequal split power tappers are not just in stock, but they will also ship the same-day are they are purchased.
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Rockwell Automation
Our Connection Devices include Network Media for Ethernet, ControlNet™, DeviceNet™, Power Media, and Safety Connection Systems. We offer many products for DC Micro (M12), AC Micro (1/2), MiniPlus (1, 1-1/8), Mini (7/8), Pico (M8), and M23: cordsets, patchcords, V- and Y-cables, splitters, field attachable connectors, and receptacles. Our I/O Wiring Systems include interface modules and cables that connect through pre-wired cables to digital and analog I/O. We offer several IEC and NEMA terminal blocks to meet your needs.
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Rosenberger Hochfrequenztechnik GmbH & Co. KG
Passive Intermodulation (PIM) is a non-linear response of two or more signals of different frequencies mixing together in a passive device, e.g., antenna, cable, con- nector or splitter. Today, PIM has become a very serious, and challenging issue for mobile operators, equipment vendors, and component manufacturers due to frequency planning in modern communication networks, the usage of high-power transmitters and the usage of more sensitive receivers in base stations. If a PIM with sufficient magnitude generated from a transmitter falls within an adjacent receiver channel, it causes serious interfe- rences to the base station receiver and will significantly degrade the network quality of service.
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SA831 -
Hangzhou Softel Optic Co., Ltd.
*The microwave low noise amplification circuits are used as forward and backward paths of SA831 products. CATV special RF modules encapsulated by SOT-115 are used as forward paths of SA831 products. The microwave low noise amplification circuits are used as backward paths of SA831 products.*It is more convenient to debug, because of plug-in duplex filters, plug-in fixed (or adjustable) equalizers, plug-in fixed (or adjustable) attenuator plug-in output splitters and scientific and rational on-line detection ports.*The equipment can work steadily outdoor under bad environmental condition, because of waterproof aluminum case, high reliability switching power supply and lightning protection system.
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10736A -
Keysight Technologies
The Keysight 10736A Three Axis Interferometer is used in multiple axis applications where linear and angular control of the stage is required. It combines in a single package the functionality of an optical bench with multiple beam benders, beam splitters, and three interferometers. The interferometers split an incoming laser beam into three beams to measure linear distance, pitch and yaw, or linear distance, roll and yaw. Three linear measurements provide the basis for calculating two angular measurements. The inherent beam parallelism ensures that there is essentially no cosine error between the three measurements and also ensures angle accuracy for pitch and yaw measurements. Other characteristics include:
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10735A -
Keysight Technologies
The Keysight 10735A Three Axis Interferometer is used in multiple axis applications where linear and angular control of the stage is required. It combines in a single package the functionality of an optical bench with multiple beam benders, beam splitters, and three interferometers. The interferometers split an incoming laser beam into three beams to measure linear distance, pitch and yaw, or linear distance, roll and yaw. Three linear measurements provide the basis for calculating two angular measurements. The inherent beam parallelism ensures that there is essentially no cosine error between the three measurements and also ensures angle accuracy for pitch and yaw measurements. Other characteristics include:
