释义 |
bipolar transistor
bipolar transistorn. A type of transistor used to amplify or switch electrical signals and consisting of three semiconductor layers treated so that the layer in the middle has an inherent electric charge opposite to the charge of the layers on either side of it. Signals applied to the middle layer control the strength of current flow between the outside layers.bipolar transistor
bipolar transistor[bī′pō·lər tranz′is·tər] (electronics) A transistor that uses both positive and negative charge carriers. bipolar transistor (electronics)A transistor made from a sandwich of n- andp-type semiconductor material: either npn or pnp. Themiddle section is known as the "base" and the other two as the"collector" and "emitter". When used as an amplifyingelement, the base to emitter junction is in a "forward-biased"(conducting) condition, and the base to collector junction is"reverse-biased" or non-conducting. Small changes in the baseto emitter current (the input signal) cause either holes(for pnp devices) or free electrons (for npn) to enter thebase from the emitter. The attracting voltage of thecollector causes the majority of these charges to cross intoand be collected by the collector, resulting in amplification.
Contrast field effect transistor.bipolar transistorAlso called a "bipolar junction transistor" (BJT), it is one of two major transistor categories; the other is "field effect transistor" (FET). Although the first transistors and first silicon chips used bipolar transistors, most chips today are field effect transistors wired as CMOS logic, which consume less power (see FET and MOSFET).
Bipolar transistors are available as individually packaged discrete components as well as by the hundreds of thousands on a single chip.
High Power, High Frequency Although the overall market for bipolar transistors has decreased, they are still used for high power applications and high radio frequency (RF) applications that reach into the gigahertz range. For example, from 1997 to 2002, worldwide sales of bipolar chips dropped from USD $1.5 billion to $226 million, the latter out of a total semiconductor market of $136 billion. See transistor, IGBT and BiCMOS.
| The First Transistor Was Bipolar |
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In 1954, Texas Instruments pioneered the bipolar transistor. Although BJTs are fabricated in microscopic proportions on chips, individual discrete BJTs similar to this one are still in common use. (Image courtesy of Texas Instruments, Inc.) |
| NPN Bipolar Transistor |
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BJTs are either a sandwich of p-type silicon surrounded by n-type regions or n-type surrounded by p-type. To turn an NPN BJT on (example above), a negative potential is applied to the emitter terminal and a positive potential to the collector. When a positive voltage is applied to the base, it allows electrons to flow from the emitter to collector. For the PNP BJT, the polarities are reversed. The "bipolar" name comes from using both mobile carriers (electrons and holes). |
| Bipolars Use More Power |
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BJTs require continuous voltage at the base to keep the transistor closed (on) and current flowing from emitter to collector. In the field effect transistors (FETs) used in CMOS chips, the transistor is closed (turned on) by charging the gate, and current is only used during the gate charging period (see FET and MOSFET). |
MedicalSeeFETSee BPT See BP Prudhoe Bay Royalty Trust |