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• System on a chip
  ...t]] ('''IC''') that integrates all components of a [[computer]] or other [[Electronics|electronic]] [[system]] into a single chip. It may contain [[Digital signal ...ecause its packaging is simpler.<ref>{{cite web|url=http://www.eetimes.com/electronics-news/4052047/The-Great-Debate-SOC-vs-SIP |title=The Great Debate: SOC vs. S
  9 KB (1,162 words) - 14:47, 10 December 2011
• Miller effect
  In [[electronics]], the '''Miller effect''' accounts for the increase in the equivalent inpu ...upon the load in the plate circuit," ''Scientific Papers of the Bureau of Standards'',
  10 KB (1,754 words) - 14:48, 10 December 2011
• Digital electronics
  {{main|Electronics|Electronic circuit}} ...ce|manufacturing tolerance]], [[Path loss|signal attenuation]] or [[Noise (electronics)|parasitic noise]] do not leave the discrete envelope, and as a result are
  33 KB (4,939 words) - 14:49, 10 December 2011
• Crystal radio
  | title = Revolution in Miniature: The history and impact of semiconductor electronics, 2nd Ed. | title = The Third Element: A Brief History of Electronics
  73 KB (10,437 words) - 14:50, 10 December 2011
• Phase-locked loop
  ...econds per hour compared to the reference clock at [[National Institute of Standards and Technology|NIST]]. Over time, that time difference would become substan [[Category:Radio electronics]]
  37 KB (5,933 words) - 14:50, 10 December 2011
• DO-254
  ...NS)- the longest chapter of the document - prepares the future of embedded electronics, paving the way for advanced design and verification methods, well known to [[Category:RTCA standards]]
  6 KB (829 words) - 14:50, 10 December 2011
• Network analysis (electrical circuits)
  A network, in the context of [[electronics]], is a collection of interconnected components. '''Network analysis''' is ...th=May |doi=10.1109/JRPROC.1962.288301 }} cites {{cite journal |title=IRE Standards on Circuits: Definitions of Terms for Linear Passive Reciprocal Time Invari
  34 KB (5,380 words) - 14:51, 10 December 2011
• Signal generator
  ..., '''[[digital pattern generator]]s''' or '''frequency generators''' are [[Electronics|electronic]] devices that generate repeating or non-repeating electronic si Function generators are typically used in simple electronics repair and design; where they are used to stimulate a circuit under test. A
  13 KB (1,767 words) - 14:51, 10 December 2011
• Bus analyzer
  Analyzers are now available for virtually all existing computer bus standards and form factors such as [[Peripheral Component Interconnect|PCI]], [[Compa [[Category:Digital electronics]]
  4 KB (600 words) - 14:51, 10 December 2011
• Vector signal analyzer
  ...|LTE]], and [[Wireless LAN|WLAN]]<ref>National Institute of Technology and Standards [http://www.eeel.nist.gov/kate_papers/R13_NIST_TN1546_Modulated_Signal_(Web {{electronics-stub}}
  5 KB (701 words) - 14:51, 10 December 2011
• Measuring receiver
  *determine the signal-strength and standards-compliance of broadcast signals, ...mpliance of a device with [[electromagnetic interference]] and [[TEMPEST]] standards and regulations.
  5 KB (718 words) - 14:51, 10 December 2011
• AN/URM-25D Signal Generator
  ...device used during the 1950s and 1960s by the [[U.S. Military]] to test [[electronics|electronic]] equipment. ...y for a low cost with build quality reflecting tough military construction standards.<ref name="r-390a.net">http://www.r-390a.net/Pearls/URM-25.pdf ''R-390a.net
  4 KB (592 words) - 14:51, 10 December 2011
• Automatic test equipment
  ...ial PC]] is nothing but a normal desktop computer packaged in 19-inch rack standards with sufficient PCI / PCIe slots for accommodating the Signal simulator/sen ...an IEEE-488 (a standard created by the [[IEEE|Institute of Electrical and Electronics Engineers]]) standard parallel interface used for attaching sensors and pro
  20 KB (2,923 words) - 14:51, 10 December 2011
• Electronic test equipment
  ...ired. Use of electronic test equipment is essential to any serious work on electronics systems. Practical [[electronics]] engineering and assembly requires the use of many different kinds of elec
  15 KB (2,024 words) - 14:51, 10 December 2011
• Standard Commands for Programmable Instruments
  [[Category:Electronics standards]]
  6 KB (879 words) - 14:51, 10 December 2011
• Network analyzer (electrical)
  ...can be improved with [[calibration]]. Calibration involves measuring known standards and using those measurements to compensate for systematic errors. After mak ...o make. Modern network analyzers will account for the imperfections in the standards. {{Harv|Agilent|2006}}
  12 KB (1,824 words) - 14:51, 10 December 2011
• Oscilloscope types
  ...digital sampling oscilloscopes.<ref>"Oscilloscope Types" http://www.radio-electronics.com/info/t_and_m/oscilloscope/oscilloscope_types.php</ref><ref>"XYZs of Osc ...ecialized fields such as telecommunications, disk drive analysis and power electronics.
  39 KB (6,076 words) - 14:52, 10 December 2011
• Microwave power meter
  ...converted into a power reading. Several modern power sensor heads contain electronics to create a digital output and can be plugged via [[USB]] into a PC which a ...stor-based power sensors are still the sensor of choice for power transfer standards because of their DC power substitution capability (Agilent 2006).
  6 KB (871 words) - 14:52, 10 December 2011
• Digital pattern generator
  ...igital pattern generator are often compatible with digital electronics I/O standards – [[Transistor–transistor logic|TTL]], LVTTL, [[LVCMOS]] and [[LVDS]], ...digital stimulus; the generated signal is interesting for testing digital electronics at logic level - this is why they are also called 'logic source'. A pulse g
  5 KB (774 words) - 14:52, 10 December 2011
• IEEE-488
  ...Purpose Interface Bus'''). It has been the subject of several [[#Standards|standards]]. ...instrument control. As GPIB became popular, it was formalized by various [[standards organization]]s.
  18 KB (2,497 words) - 14:52, 10 December 2011

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