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Parts by Number for Low Loss Material Top

Part # Distributor Manufacturer Product Category Description
5503141-2 Powell Electronics, Inc. TE Connectivity Not Provided Low Loss Loopback Connector; Cable Type = Buffered Fiber - 900 µm; Multimode; Ceramic Ferrule Material; Fiber Optic Connector Type = Duplex;
5503141-3 Powell Electronics, Inc. TE Connectivity Not Provided Low Loss Loopback Connector; Cable Type = Jacketed Cable - 3.0mm; Multimode; Ceramic Ferrule Material; Fiber Optic Connector Type = Duplex;
5504883-1 Powell Electronics, Inc. TE Connectivity Not Provided Low Loss Loopback Connector; Singlemode; Ceramic Ferrule Material; Fiber Optic Connector Type = Duplex; Plastic Housing Material;

Conduct Research Top

  • Specifying a Low Pass Filter
    depending on the design of the filter. In order to quote/specify a low pass filter, the following information must typically be provided: 1. The extent of the passband (i.e.; what frequencies does the low pass filter PASS?). 2. The passband insertion loss (how much power is dissipated by the filter) 3
  • New low impact paper
    New Low Impact Paper Coating Technology Vilho Nissinen takes a look at OptiSpray coating technology Over time we have seen a decrease in the trend of paper product prices. In recessionary times, low value products lose their profit marginal quite easily. To achieve good profitability, the value
  • Development of a New High Performance Material to Improve Vehicle Efficiency by Reducing Frictional and Parasitic Energy Losses in Transmission Components (.pdf)
    type and level is critical to achieving a low coefficient of friction in rotating systems. This frictional energy loss is typically indicated by an increase in fluid temperature (thermal gain). The data presented in figures 5 and 6 represent how coefficient of friction and temperature vary
  • Low Frequency Magnetic Transmitter Design
    Low frequency magnetic communications (LFMC) is a viable ?wireless? communications alternative to traditional radio frequency (RF) or Infrared communications. It is well suited for certain applications when considering some of the characteristics of the topology. Some of the main advantages
  • Low-Frequency Magnetic Transmitter Design (.pdf)
    Low frequency magnetic communications (LFMC) is a viable ?wireless? communications alternative to traditional radio frequency (RF) or Infrared communications. It is well suited for certain applications when considering some of the characteristics of the topology. 00232B.book AN232
  • Loss Tangent
    current tan = | IR / IC | . The dielectric quality factor (Q) is equal the inverse of the loss tangent. High Q or low loss tangents are required to reduce insertion losses. Q = (average stored energy per cycle / energy dissipated per cycle)
  • Low-Pressure Carburising Systems: A Review of Current Technology (.pdf)
    Although the great majority of carburising is still carried out at atmospheric pressure, recent developments in vacuum furnaces and steel technology have meant that carburising can now be carried out in a more environmentally friendly way under low pressure. The range of material types being
  • Low Distortion Tunable RF Components, a Compound Semiconductor Opportunity
    , tunable filters, as well as. device parasitics in order to achieve an improved quality. adjustable “true” time delay phase shifters for smart antenna. factor and capacitance tuning range. systems. An ideal tunable RF element for these applications will. Cfix_1. VS1. V. exhibit very low loss, low

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