On Shore Technology Inc. WMS-280Z
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- WMS-280Z
- On Shore Technology Inc.
- CONN IC DIP SOCKET 28POS GOLD
- Sockets for ICs, Transistors
- WMS-280Z Datasheet
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Lead free / RoHS Compliant - 26288
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What is WMS-280Z
On Shore Technology Inc. Part Number WMS-280Z(Sockets for ICs, Transistors), developed and manufactured by On Shore Technology Inc., distributed globally by Jinftry. We distribute various electronic components from world-renowned brands and provide one-stop services, making us a trusted global electronic component distributor.
WMS-280Z is one of the part numbers distributed by Jinftry, and you can learn about its specifications/configurations, package/case, Datasheet, and other information here. Electronic components are affected by supply and demand, and prices fluctuate frequently. If you have a demand, please do not hesitate to send us an RFQ or email us immediately [email protected] Please inquire about the real-time unit price, Data Code, Lead time, payment terms, and any other information you would like to know. We will do our best to provide you with a quotation and reply as soon as possible.
WMS-280Z Specifications
- Part NumberWMS-280Z
- CategorySockets for ICs, Transistors
- ManufacturerOn Shore Technology Inc.
- DescriptionCONN IC DIP SOCKET 28POS GOLD
- Package-
- SeriesWMS
- TypeDIP, 0.6" (15.24mm) Row Spacing
- FeaturesOpen Frame, Wash Away
- Operating Temperature-40°C ~ 105°C
- Mounting TypeThrough Hole
- TerminationSolder
- Pitch - Mating0.100" (2.54mm)
- Contact Finish - MatingGold
- Contact Finish - PostTin
- Contact Finish Thickness - MatingFlash
- Number of Positions or Pins (Grid)28 (2 x 14)
- Contact Material - MatingBeryllium Copper
- Pitch - Post0.100" (2.54mm)
- Contact Finish Thickness - Post200µin (5.08µm)
- Contact Material - PostBrass
Application of WMS-280Z
WMS-280Z Datasheet
WMS-280Z Datasheet , WMS,DIP, 0.6" (15.24mm) Row Spacing,Open Frame, Wash Away,-40°C ~ 105°C,Through Hole,Solder,0.100" (2.54mm),Gold,Tin,Flash,28 (2 x 14),Beryllium Copper,0.100" (2.54mm),200µin (5.08µm),Brass
WMS-280Z Classification
Sockets for ICs, Transistors
FAQ about Sockets for ICs, Transistors
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1. Which IC package can be inserted into the socket?
DIP package (Dual Inline-pin Package) is an IC package that can be inserted into the socket. DIP package adopts dual inline form, and its number of pins generally does not exceed 100, which is suitable for small and medium-scale integrated circuits. This packaged IC has two rows of pins and needs to be inserted into a chip socket with a DIP structure, or it can be directly inserted into a circuit board with the same number of solder holes and geometric arrangement for soldering.
What is the use of transistors?
Transistors generally refer to all single components based on semiconductor materials. Transistors have multiple functions such as detection, rectification, amplification, switching, voltage regulation, signal modulation, etc. Transistors can be used for a variety of digital and analog functions.
On December 16, 1947, William Shockley, John Bardeen and Walter Brattain successfully created the first transistor at Bell Labs.
Transistors are one of the most critical components of modern electrical appliances. The reason why transistors can be used on a large scale is that they can be mass-produced at a very low unit cost.
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2. What is the main function of transistors?
A transistor is an electronic device whose main function is to amplify and control current: the transistor is an important milestone in the development of electronic technology and is widely used in various electronic devices and circuits.
The basic function of a transistor is to amplify current. The three regions in a transistor are the collector, emitter and base. The voltage change between the base and the emitter can control the current between the collector and the emitter, thereby amplifying the current. When the current between the base and the emitter is small, the current between the collector and the emitter increases many times, which is the amplification effect of the transistor.
Transistors can also be used as electronic switches. When the current between the base and the emitter is small, the current between the collector and the emitter is basically zero, and the transistor is in the off state. When the current between the base and the emitter increases to a certain extent, the current between the collector and the emitter increases sharply, and the transistor is in the on state. This switching characteristic can be widely used in digital circuits to realize the function of logic gates. -
3. What are PNP and NPN transistors?
PNP and NPN transistors are two basic types of transistors, which have significant differences in structure and current flow direction.
Definition and structure
NPN transistor: It is composed of two N-type semiconductor regions sandwiching a P-type semiconductor region, forming three main regions of emitter (E), base (B) and collector (C). This structure makes the NPN transistor behave in the circuit similar to two PN junction diodes connected back to back.
PNP transistor: It is composed of an N-type semiconductor material doped between two P-type semiconductor materials, and also has three regions of emitter, base and collector, but the current flow direction and carrier type are opposite to those of NPN.
Working Principle
NPN transistor: When a forward bias voltage is applied between the emitter and the base, the free electrons in the emitter can cross the PN junction into the base and recombine with the holes in the base to generate a base current. A reverse bias voltage is applied between the collector and the base to prevent further flow of current. When a small input signal is applied to the base, this signal changes the voltage between the base and the emitter, thereby affecting the injection of free electrons in the emitter and forming a collector current. Since the collector current is an amplification of the base current, the NPN transistor has an amplification effect.
PNP transistor: The working principle is similar to that of the NPN type, but the current flow direction and carrier type are opposite. Positive charge flows from the emitter of the P-type semiconductor to the base, a part of which is captured by the base electrons of the N-type semiconductor and becomes the base current, and most of the rest becomes the collector current.
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