power plane - definição. O que é power plane. Significado, conceito
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O que (quem) é power plane - definição

BOARD TO SUPPORT AND CONNECT ELECTRONIC COMPONENTS
Printed circuit; Circuit board; PC board; Circuit Board; Printed wiring board; Printed circuit boards; Power plane; Printed Circuit Board; Circuit boards; Circuitboards; Power Plane; Printed wiring boards; Printed circuit assembly; Printed Circuit Board Assembly; Circuitboard; Printed Circuit Design; Printed circuits; Circuit card; Circuit Card Assembly; Printed circuit board assembly; Printed Circuit Boards; Breakout board; Heavy copper; Through-holes; Heavy Copper; Etched circuit; Insertion Mount Technology; Insertion mount technology; Conductive trace; 20-h; PCB Assembly; PCB trace; PCB traces; Signal traces; Printed-circuit board; Printed-Circuit Board; Printed-circuit Board; PCB design; Printed circuit board design; Pcb design; Circuit card assembly; PCB CAM; Miniature PCB; Copper-clad laminates; Printed Circuits; PCB (electronics); PWB (electronics); PCB layout; PCB fabrication; PCB manufacturing; PCB assembly; PCB fabricator; PCB manufacturer; PCB assembly vendor; PCB assembler; PCB assembling; PCB designer; PCB assembly shop; Rigid printed circuit board; Rigid board; Rigid PCB; Rigid RWB; Rigid printed wiring board; PCB panelization; PWB panelization; Panelization (PCB); Panelization (PWB); Panelization (electronics); PCB panel; PWB panel; Panel (electronics); Multi-panel (electronics); Multipanel (electronics); Multi-panel (PCB); Multipanel (PCB); Multi-panel (PWB); Multipanel (PWB); PCB multi-panel; PCB multipanel; PWB multi-panel; PWB multipanel; Electronic circuit board; PCB electrical test; PCB E-test; PCB E test; Electrical test (PCB); E-test (PCB); E test (PCB); Bare-board test; Printed circuit panel; Copper thickness; Copper weight; Cu thickness; Cu weight; 0.5 oz/ft²; 1 oz/ft²; 2 oz/ft²; 3 oz/ft²; 0.5 oz/ft^2; 1 oz/ft^2; 2 oz/ft^2; 3 oz/ft^2; 150 g/m^2; 300 g/m^2; 600 g/m^2; 900 g/m^2; 150 g/m²; 300 g/m²; 600 g/m²; 900 g/m²; 1/2 oz/ft²; 1/2 oz/ft^2; ½ oz/ft²; ½ oz/ft^2; 17 µm copper; 17.5 µm copper; 18 µm copper; 34 µm copper; 35 µm copper; 70 µm copper; 105 μm copper; 0.5 oz (copper weight); 1 oz (copper weight); 2 oz (copper weight); 3 oz (copper weight); Circuit-boards; Printed Circuit Board (PCB); Green wire; "Green" wire; Layer stack; Printed Wiring Board; PWB design; PCB construction; PWB construction; Stack-up; PCB stack-up; PWB stack-up; PCB layer stack; PWB layer stack; P.C. board; PCB material stack-up; PCB layer stack-up; Material stack-up; Layer stack-up
  • via]], visible as a bright copper-colored band running between the top and bottom layers of the board.
  • A cordwood module
  • The two processing methods used to produce a double-sided PWB with plated-through holes
  • An example of hand-drawn etched traces on a PCB
  • Cordwood construction was used in [[proximity fuze]]s.
  • Proximity fuze Mark 53 production line 1944
  • Eyelets (hollow)
  • vias]] (the through-hole paths to the other surface), and some electronic components mounted using through-hole mounting
  • A PCB as a design on a computer (left) and realized as a board assembly populated with components (right). The board is double sided, with through-hole plating, green solder resist and a white legend. Both surface mount and through-hole components have been used.
  • A board designed in 1967; the sweeping curves in the traces are evidence of freehand design using adhesive tape
  • PCB of a DVD player. PCBs may be made in other colors.
  • PCB with test connection pads

Supplementary Ideographic Plane         
  • A map of the Supplementary Ideographic Plane. Each numbered box represents 256 code points.
  • A map of the Supplementary Special-purpose Plane. Each numbered box represents 256 code points.
  • A map of the Tertiary Ideographic Plane. Each numbered box represents 256 code points.
  • A map of the Supplementary Multilingual Plane. Each numbered box represents 256 code points.
CONTINUOUS GROUP OF 65536 CODE POINTS IN THE UNICODE CODED CHARACTER SET
Basic multilingual plane; Basic Multilingual Plane; Supplementary Multilingual Plane; Plane One; Plane Zero; Plane Fifteen; Plane Sixteen; Supplementary Ideographic Plane; Plane Two; Supplementary Special-purpose Plane; Plane Fourteen; Plane 0; Plane 1; Plane 2; Plane 14; Plane 15; Plane 16; Astral character; Mapping of Unicode character planes; Unicode plane; Supplementary characters; Unicode planes; Tertiary Ideographic Plane; Private Use Plane; Astral plane (Unicode); Plane 15 (Unicode); Plane 16 (Unicode); Private use plane; Private use plane (Unicode); UCS-PUP15; PUP15; PUP16; UCS-PUP16; PUP15 (Unicode); PUP16 (Unicode); Supplementary plane; Unicode BMP; Private Use Planes; Plane 4; Plane 5; Plane 6; Plane 7; Plane 8; Plane 9; Plane 10; Plane 11; Plane 12; Plane 13; Supplemental Multilingual Plane; Supplemental Ideographic Plane; Supplemental Special-purpose Plane; Plane (unicode)
<text, standard> (SIP) The third plane (plane 2) defined in Unicode/ISO 10646, designed to hold all the ideographs descended from Chinese writing (mainly found in Vietnamese, Korean, Japanese and Chinese) that aren't found in the {Basic Multilingual Plane}. The BMP was supposed to hold all ideographs in modern use; unfortunately, many Chinese dialects (like Cantonese and Hong Kong Chinese) were overlooked; to write these, characters from the SIP are necessary. This is one reason even non-academic software must support characters outside the BMP. Unicode home (http://unicode.org). (2002-06-19)
Plane (geometry)         
  • right
FLAT, TWO-DIMENSIONAL SURFACE
Infinite Plane; Infinite plane; Plane coordinates; Plane coordinate; 2-dimensional space; Euclidean 2-space; Euclidean two-dimensional space; Two-dimensional Euclidean space; Plane (geometry)
In mathematics, a plane is a flat, two-dimensional surface that extends indefinitely.In Euclidean geometry it extends infinitely, but in, e.
Basic Multilingual Plane         
  • A map of the Supplementary Ideographic Plane. Each numbered box represents 256 code points.
  • A map of the Supplementary Special-purpose Plane. Each numbered box represents 256 code points.
  • A map of the Tertiary Ideographic Plane. Each numbered box represents 256 code points.
  • A map of the Supplementary Multilingual Plane. Each numbered box represents 256 code points.
CONTINUOUS GROUP OF 65536 CODE POINTS IN THE UNICODE CODED CHARACTER SET
Basic multilingual plane; Basic Multilingual Plane; Supplementary Multilingual Plane; Plane One; Plane Zero; Plane Fifteen; Plane Sixteen; Supplementary Ideographic Plane; Plane Two; Supplementary Special-purpose Plane; Plane Fourteen; Plane 0; Plane 1; Plane 2; Plane 14; Plane 15; Plane 16; Astral character; Mapping of Unicode character planes; Unicode plane; Supplementary characters; Unicode planes; Tertiary Ideographic Plane; Private Use Plane; Astral plane (Unicode); Plane 15 (Unicode); Plane 16 (Unicode); Private use plane; Private use plane (Unicode); UCS-PUP15; PUP15; PUP16; UCS-PUP16; PUP15 (Unicode); PUP16 (Unicode); Supplementary plane; Unicode BMP; Private Use Planes; Plane 4; Plane 5; Plane 6; Plane 7; Plane 8; Plane 9; Plane 10; Plane 11; Plane 12; Plane 13; Supplemental Multilingual Plane; Supplemental Ideographic Plane; Supplemental Special-purpose Plane; Plane (unicode)
<text, standard> (BMP) The first plane defined in Unicode/ISO 10646, designed to include all scripts in active modern use. The BMP currently includes the Latin, Greek, Cyrillic, Devangari, hiragana, katakana, and Cherokee scripts, among others, and a large body of mathematical, APL-related, and other miscellaneous characters. Most of the Han ideographs in current use are present in the BMP, but due to the large number of ideographs, many were placed in the Supplementary Ideographic Plane. Unicode home (http://unicode.org). (2002-03-19)

Wikipédia

Printed circuit board

A printed circuit board (PCB; also printed wiring board or PWB) is a medium used in electrical and electronic engineering to connect electronic components to one another in a controlled manner. It takes the form of a laminated sandwich structure of conductive and insulating layers: each of the conductive layers is designed with an artwork pattern of traces, planes and other features (similar to wires on a flat surface) etched from one or more sheet layers of copper laminated onto and/or between sheet layers of a non-conductive substrate. Electrical components may be fixed to conductive pads on the outer layers in the shape designed to accept the component's terminals, generally by means of soldering, to both electrically connect and mechanically fasten them to it. Another manufacturing process adds vias: plated-through holes that allow interconnections between layers.

Printed circuit boards are used in nearly all electronic products. Alternatives to PCBs include wire wrap and point-to-point construction, both once popular but now rarely used. PCBs require additional design effort to lay out the circuit, but manufacturing and assembly can be automated. Electronic design automation software is available to do much of the work of layout. Mass-producing circuits with PCBs is cheaper and faster than with other wiring methods, as components are mounted and wired in one operation. Large numbers of PCBs can be fabricated at the same time, and the layout has to be done only once. PCBs can also be made manually in small quantities, with reduced benefits.

PCBs can be single-sided (one copper layer), double-sided (two copper layers on both sides of one substrate layer), or multi-layer (outer and inner layers of copper, alternating with layers of substrate). Multi-layer PCBs allow for much higher component density, because circuit traces on the inner layers would otherwise take up surface space between components. The rise in popularity of multilayer PCBs with more than two, and especially with more than four, copper planes was concurrent with the adoption of surface mount technology. However, multilayer PCBs make repair, analysis, and field modification of circuits much more difficult and usually impractical.

The world market for bare PCBs exceeded $60.2 billion in 2014 and is estimated to reach $79 billion by 2024.