A breadboard (solderless breadboard, protoboard, plugboard) is a reusable
solderless device used to build a (generally temporary) prototypeof an electronic circuitand for experimenting with circuit designs. This is in contrast to stripboard(veroboard) and similar prototyping printed circuit boards, which are used to build more permanent prototypes or one-offs, and cannot easily be reused. A variety of electronic systems may be prototyped by using breadboards, from small circuits to complete central processing units (CPUs).
The term breadboard is derived from an early form of
point-to-point construction; and in particular the practice of constructing simple demonstration circuits (usually using valves/tubes) on a convenient wooden base, (similar to a cutting board).
printed circuit board) is similar to the node pattern of the breadboards shown above.]
Over time, breadboards have evolved greatly, with the term being used for all kinds of prototype electronic devices. For example US Patent 3,145,483 [US patent|3145483 "Test Board for Electronic Circuits"] , filed in 1961, granted in 1964, describes a wooden plate breadboard with mounted springs and other facilities. Six years later, US Patent 3,496,419 [US patent|3496419 "Printed Circuit Breadboard"] , filed in 1967 and granted in 1970, refers to a particular
printed circuit boardlayout as a "Printed Circuit Breadboard". Both examples also refer to and describe other types of breadboards as prior art. The classic plastic pluggable breadboard, illustrated in this article, was designed by Ronald J Portugal of EI Instruments Inc. in 1971 [US patent reference|number=D228136|y=1973|m=08|d=14|inventor=Ronald J. Portugal|title=breadboard for electronic components or the like]
In the early days of radio, amateurs would nail copper wire or terminal strips to a wooden board (often literally a board for cutting bread), and solder electronic components to them. [ [http://tangentsoft.net/elec/breadboard.html Description of the term breadboard] ] . Sometimes a paper schematic diagram was first glued to the board as a guide to placing terminals, followed by components and wires.
The integrated circuit for the Polaroid SX-70 camera was breadboarded before
Texas Instrumentsfabricated the custom chip. It was rumoured to have been built from discrete components on a 4 ft. x 8 ft. piece of plywood, and was fully functional. The project was so secret that Texas Instruments engineers were only given functional specifications, but not told the purpose of the chip.Fact|date=February 2007
A modern solderless breadboard consists of a perforated block of plastic with numerous tin plated
phosphor bronzespring clips under the perforations. The spacing between the clips (lead pitch) is typically 0.1" (2.54 mm). Integrated circuits (ICs) in dual in-line packages (DIPs) can be inserted to straddle the centerline of the block. Interconnecting wires and the leads of discrete components (such as capacitors, resistors, inductors, "etc.") can be inserted into the remaining free holes to complete the circuit topology. Typically the spring clips are rated for 1 Ampereat 5 Voltand 0.333 Ampereat 15 Volt(5 Watt).
Bus and terminal strips
Solderless breadboards are available from several different manufacturers, but most share a similar layout. The layout of a typical solderless breadboard is made up from two types of areas, called strips. Strips consist of interconnected electrical terminals.;terminal strips:The main area. To hold the electronic components.:In the middle of a terminal breadboard strip, one typically finds a notch running in parallel to the long side. The notch is to mark the centerline of the terminal strip and provides limited airflow (cooling) to ICs straddling the centerline. The clips on the right and left of the notch are each connected in a radial way, typically five clips in a row on each side of the notch are electrically connected. The five clip columns on the left of the notch are often marked as A, B, C, D, and E, while the ones on the right are marked F, G, H, I and J. When e.g. a skinny Dual inline package (DIP) integrated circuit is plugged into a breadboard the pins of one side of the chip are supposed to go into column E while the other goes into column F on the other side of the notch.;bus strips:To provide power to the electronic components.:A bus strip usually contains two columns, one for ground, one for a supply voltage. But some breadboards only provide a single-column power distributions bus strip on each long side. Typically the column intended for a supply voltage is marked in red, while the column for ground is marked in blue or black. Some manufacturers connect all terminals in a column. Others just connect groups of e.g. 25 consecutive terminals in a column. The latter design provides a circuit designer with some more control over crosstalk on the power supply. Often the groups in a bus strip are indicated by gaps in the color marking.:Bus strips typically run down one or both sides of a terminal strip or between terminal strips. On large breadboards additional bus strips can often be found on the top and bottom of terminal strips.
Some manufacturers provide separate bus and terminal strips. Others just provide breadboard blocks which contain both in one block. Often breadboard strips or blocks of one brand can be clipped together to make a larger breadboard.
In a more robust and slightly easier to handle variant one or more breadboard strips are mounted on a sheet of metal. Typically, that backing sheet also holds a number of
binding posts. These posts provide a clean way to connect an external power supply. Several breadboard images in this article show such solderless breadboards.
A "full size" terminal breadboard strip typically consists of around 56 to 65 rows of connectors, each row containing the above mentioned two sets of connected clips (A to E and F to J). "Small size" strips typically come with around 30 rows.
A B C D E F G H I J 1 o-o-o-o-o v o-o-o-o-o 2 o-o-o-o-o o-o-o-o-o 3 o-o-o-o-o o-o-o-o-o ~ ~ 61 o-o-o-o-o o-o-o-o-o 62 o-o-o-o-o o-o-o-o-o 63 o-o-o-o-o ^ o-o-o-o-o
V G o o
~ ~ o o
The jump wires for breadboarding can be obtained in ready-to-use jump wire sets or can be manually manufactured. The latter can become tedious work for larger circuits. Ready-to-use jump wires come in different qualities, some even with tiny plugs attached to the wire ends. Jump wire material for ready-made or home-made wires should usually be 22 AWG (0.33 mm²) solid copper, tin-plated wire - assuming no tiny plugs are to be attached to the wire ends. The wire ends should be stripped 3/16" to 5/16" (approx. 5 mm to 8 mm). Shorter stripped wires might result in bad contact with the board's spring clips (insulation being caught in the springs). Longer stripped wires increase the likelihood of short-circuits on the board.
Needle-nose pliersand tweezersare helpful when inserting or removing wires, particularly on crowded boards.
Differently colored wires and color coding discipline are often adhered to for consistency. However, the number of available colors is typically far less than the number of signal types or paths. So typically a few wire colors get reserved for the supply voltages and ground (e.g. red, blue, black), some more for main signals, while the rest often get random colors. There are ready-to-use jump wire sets on the market where the color indicates the length of the wires; however, these sets do not allow applying a meaningful color coding schema.
Some manufacturers provide high-end versions of solderless breadboards. These are typically high-quality breadboard modules mounted on some flat casing. The casing contains useful equipment for breadboarding, for example one or more power supplies, signal generators, serial interfaces, LED or LCD display modules, logic probes, etc.
Breadboard modules can also be found mounted on devices like microcontroller evaluation boards. They provide an easy way to add additional periphery circuits to the evaluation board.
Due to large stray
capacitance(from 2-25pF per contact point), high inductanceof some connections and a relatively high and not very reproducible contact resistance, solderless breadboards are limited to operate at relatively low frequencies, usually less than 10 MHz, depending on the nature of the circuit. The relative high contact resistance can already be a problem for DC and very low frequency circuits. Solderless breadboards are further limited by their voltage and current ratings.
Breadboards usually cannot accommodate Surface mount technology devices (SMD) or non 0.1" (2.54 mm) grid spaced components, like for example those with 2 mm spacing. Further, they can not accommodate components with multiple rows of connectors, if these connectors don't match the DIL layout (impossible to provide correct electrical connectivity). Sometimes small PCB adapters (breakout adapters) can be used to fit the component on. Such adapters carry one or more of the non-fitting components and 0.1" (2.54 mm) connectors in DIL layout. The larger of the components are usually plugged into a socket, where the socket was soldered onto such an adapter. The smaller components (e.g. SMD resistors) are usually directly soldered onto such an adapter. The adapter is then plugged into the breadboard via the 0.1" connectors. However, the need to solder the component or socket onto the adapter contradicts the idea of using a solderless breadboard for prototyping in the first place.
Complex circuits can become unmanageable on a breadboard due to the large amount of wiring necessary.
Alternative methods to create prototypes are
point-to-point construction, reminiscent of the original breadboards, wire wrap, wiring pencil, and boards like stripboard. Complicated systems, such as modern computers comprising millions of transistors, diodes and resistors, do not lend themselves to prototyping using breadboards, as sprawling designs on breadboards can be difficult to lay out and debug. Modern circuit designs are generally developed using a schematic captureand simulation system, and tested in software simulation before the first prototype circuits are built on a printed circuit board. Integrated circuitdesigns are a more extreme version of the same process: since producing prototype silicon is expensive, extensive software simulations are performed before fabricating the first prototypes. However, prototyping techniques are still used for some applications such as RF circuits, or where software models of components are inexact or incomplete.
Printed circuit board
* [http://www.cs.york.ac.uk/netpro/bboard/ Java applet breadboard simulator]
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Look at other dictionaries:
breadboard — ☆ breadboard [bred′bôrd΄ ] n. 1. a board on which dough is kneaded or bread is sliced 2. a) a board on which experimental electronic circuits or diagrams can be laid out b) such a circuit, model, etc. being developed or tested … English World dictionary
Breadboard — Platine Labdec Demande de traduction Breadboard → … Wikipédia en Français
breadboard — UK [ˈbredbɔː(r)d] / US [ˈbredˌbɔrd] noun [countable] Word forms breadboard : singular breadboard plural breadboards a board on which you cut bread … English dictionary
Breadboard — Eine Steckplatine mit einem Schaltungsaufbau Eine Steckplatine (engl. breadboard), auch Steckboard oder Protoboard , dient der mechanischen Befestigung und der elektrischen Verbindung von elektronischen Bauteilen. Im Gegensatz zu Leiterplatten… … Deutsch Wikipedia
breadboard — [[t]bre̱dbɔː(r)d[/t]] breadboards also bread board N COUNT A breadboard is a flat piece of wood used for cutting bread on … English dictionary
breadboard — maketo plokštė statusas T sritis automatika atitikmenys: angl. bread board; breadboard; prototyping board vok. Versuchsaufbau, m rus. макет, m; макетная плата, f pranc. carte de développement, f; plaque de maquette, f … Automatikos terminų žodynas
breadboard — I. noun Date: 1847 1. a board on which dough is kneaded or bread cut 2. a board on which mounted components are breadboarded II. transitive verb Date: 1956 to make an experimental arrangement of (as an electronic circuit or a mechanical system)… … New Collegiate Dictionary
breadboard — /bred bawrd , bohrd /, n. 1. a slab of wood on which dough is kneaded and bread is sliced. 2. Electronics. a circuit assembled on an insulating surface, often with solderless contacts, in which components can easily be replaced for circuit… … Universalium
breadboard — noun a) A cutting board, especially for cutting bread. b) A pull out cutting board underneath a counter, found in many kitchens … Wiktionary
breadboard — bread|board [ˈbredbo:d US bo:rd] n ↑knife a wooden board on which you cut bread … Dictionary of contemporary English