Product News: Communication Systems & Equipment, Electronic Components & Devices
RF MoCA Filter Modules are pin-in-paste compatible.
Press Release Summary:
February 6, 2013 - Compliant with MoCA 1.1 and 2.0 requirements, RF MoCA Filter Modules can be configured as multiband diplexers/triplexers with CATV, satellite, and DOCSIS frequencies and optional built-in surge protection. Units withstand max reflow temperature of 260°C and operate over extended temperature range of -40 to +85°C. Pin-in-paste technology, using reflow instead of wave soldering, enables RF filters to be inserted into PCB using pick-and-place equipment, eliminating need for manual placement.
Original Press Release
Pulse Electronics Introduces Pin-in-Paste RF MoCA Filter Modules
Press release date: January 30, 2013
~ Meet highest standards for data communication in cable/satellite set-top boxes ~
San Diego, Calif. - Pulse Electronics Corporation (NYSE: PULS), a leading provider of electronic components, introduces RF MoCA (Multimedia over Cable Alliance) filter modules that are pin-in-paste compatible. Pin-in-paste manufacturing uses a reflow instead of a wave soldering process to apply solder to the components, saving time, increasing throughput, and reducing costs. These filters are compliant with MoCA 1.1 and 2.0 requirements and are qualified with leading MoCA silicon vendors. A filter module can be configured as a multiband diplexer /triplexer with CATV (Cable TV), satellite, and DOCSIS (Data Over Cable Service Interface Specification) frequencies with an optional built-in surge protection. They can withstand a maximum reflow temperature of 260°C and operate over an extended temperature range of -40° to +85°C.
"The ability to use pin-in-paste technology to reflow solder these modules to a circuit board presents significant savings to set-top box manufacturers," explained Muhammad Khan, product manager, RF Products, Pulse Electronics. "In addition, you get the advantage of having filter modules that meet the highest industry requirements and that can operate in rugged environments over an extended temperature range."
The pin-in-paste method (also called pin-in-hole, intrusive reflow, or through-hole reflow technology) is a process that allows through-hole components to be reflow soldered instead of wave or hand soldered. Using solder reflow eliminates the cost of wave soldering equipment, saves manufacturing floor space, is a no-clean soldering process, reduces heat stress at the component level, is compatible with existing processes, and results in higher reliability at the printed circuit board level due to fewer soldering processes. With pin-in-paste technology, the RF filters can also be inserted into the PCB using industry standard pick-and-place equipment, eliminating the need for manual component placement.
Pulse's RF filters are designed to provide maximum isolation between the bands with excellent return and insertion loss. Pulse offers catalog and MoCA IC suppliers qualified filters to meet the specific needs of each customer. Even in high volume production, these filters are 100% tested to the specifications.
Pulse Electronics' new RF filter modules are readily available. Price and delivery time are available upon request. More information can be found on the Pin-in-Paste MoCA Filter Module data sheet at http://www.pulseelectronics.com/download/3819/pulsefilterguide and on the Pulse Electronics website at http://www.pulseelectronics.com/PinInPasteRFMoCA.
About Pulse Electronics:
Pulse Electronics is the electronic components partner that helps customers build the next great product by providing the needed technical solutions. Pulse Electronics has a long operating history of innovation in magnetics, antennas, and connectors, as well as the ability to ramp quickly into high-quality, high-volume production. The Company serves the wireless and wireline communications, power management, military/aerospace and automotive industries. Pulse Electronics is a participating member of the IEEE, SFF, OIF, HDBaseT Alliance, CommNexus, and MoCA. Visit the Pulse Electronics website at www.pulseelectronics.com.
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