A bleeder transistor is a type of transistor used in electronic circuits to discharge stored energy, ensuring that capacitors or other components do not retain voltage when the circuit is turned off. It helps prevent electric shock hazards and potential damage to components by providing a path for excess current to flow safely to ground. This feature is particularly important in power supplies and high-voltage applications. Essentially, it enhances safety and reliability in electronic designs.
General Purpose Medium Power NPN Transistor
A simple test to determine if a transistor is in cutoff or saturation is to measure the voltage across the collector-emitter (V_CE) terminal. If V_CE is close to the supply voltage, the transistor is likely in cutoff, indicating it is off. Conversely, if V_CE is very low (typically below 0.3V for a silicon transistor), the transistor is in saturation, meaning it is fully on and allowing maximum current to flow.
A silicon transistor is a transistor made of silicon.
A transistor has three leads, called the base, the collector, and the emitter. The voltage of the base (in relation to the ground) determines whether and how much current flows from the collector to the emitter. An NPN transistor can be off, meaning that there is no (or very little) voltage from the base; partly on, meaning that there is some voltage from the base; or saturated, meaning that it is receiving full voltage from the base. A saturated transistor allows the current to flow from the collector to the emitter unopposed; a partly on transistor provides some resistance; and a transistor that is off provides full resistance. A PNP transistor is similar to an NPN transistor except it performs the opposite function: when it is saturated, the current is fully resisted; when there is no voltage from the base, the current is not at all resisted; and when it is partly on there is some resistance. In sum, a transistor controls the flow between the collector and the emitter based upon the voltage of the base. this is carbage. a transistor is basicaly two diodes back to back base being common TO BOTH DIODES because of inpurity doping on purpose at the depletion region the transistor will control the current flow on the other diode. Once it reaches saturation both diodes conduct therefore current can flow in BOTH DIRECTIONS ACROSS IT.
Similar to a 2N3906 PNP transistor
General Purpose Medium Power NPN Transistor
In binary code, a "1" typically indicates that a transistor is in the "on" state, meaning it is conducting electricity. Conversely, a "0" represents the "off" state, where the transistor is not conducting. So, a "1" corresponds to an open (conducting) transistor, while a "0" corresponds to a closed (non-conducting) transistor.
in bc107 transistor b stands for the material i.e,silicon here and c stands for af low power signal
Brake bleeder? Clutch bleeder? Coolant bleeder?
A simple test to determine if a transistor is in cutoff or saturation is to measure the voltage across the collector-emitter (V_CE) terminal. If V_CE is close to the supply voltage, the transistor is likely in cutoff, indicating it is off. Conversely, if V_CE is very low (typically below 0.3V for a silicon transistor), the transistor is in saturation, meaning it is fully on and allowing maximum current to flow.
A bleeder is someone who or something which bleeds.
A transistor has three leads, called the base, the collector, and the emitter. The voltage of the base (in relation to the ground) determines whether and how much current flows from the collector to the emitter. An NPN transistor can be off, meaning that there is no (or very little) voltage from the base; partly on, meaning that there is some voltage from the base; or saturated, meaning that it is receiving full voltage from the base. A saturated transistor allows the current to flow from the collector to the emitter unopposed; a partly on transistor provides some resistance; and a transistor that is off provides full resistance. A PNP transistor is similar to an NPN transistor except it performs the opposite function: when it is saturated, the current is fully resisted; when there is no voltage from the base, the current is not at all resisted; and when it is partly on there is some resistance. In sum, a transistor controls the flow between the collector and the emitter based upon the voltage of the base. this is carbage. a transistor is basicaly two diodes back to back base being common TO BOTH DIODES because of inpurity doping on purpose at the depletion region the transistor will control the current flow on the other diode. Once it reaches saturation both diodes conduct therefore current can flow in BOTH DIRECTIONS ACROSS IT.
An NPN device is a bipolar transistor formed by two opposing PN junctions in close proximity.Another answerNPN indicates that the transistor has Negative Positive Negative substrates
A silicon transistor is a transistor made of silicon.
there is not a bleeder hose on the brakes. but there is a bleeder valve on every brake on every wheel
The active region of a transistor is when the transistor has sufficient base current to turn the transistor on and for a larger current to flow from emitter to collector. This is the region where the transistor is on and fully operating.
A transistor has three leads, called the base, the collector, and the emitter. The voltage of the base (in relation to the ground) determines whether and how much current flows from the collector to the emitter. An NPN transistor can be off, meaning that there is no (or very little) voltage from the base; partly on, meaning that there is some voltage from the base; or saturated, meaning that it is receiving full voltage from the base. A saturated transistor allows the current to flow from the collector to the emitter unopposed; a partly on transistor provides some resistance; and a transistor that is off provides full resistance. A PNP transistor is similar to an NPN transistor except it performs the opposite function: when it is saturated, the current is fully resisted; when there is no voltage from the base, the current is not at all resisted; and when it is partly on there is some resistance. In sum, a transistor controls the flow between the collector and the emitter based upon the voltage of the base. this is carbage. a transistor is basicaly two diodes back to back base being common TO BOTH DIODES because of inpurity doping on purpose at the depletion region the transistor will control the current flow on the other diode. Once it reaches saturation both diodes conduct therefore current can flow in BOTH DIRECTIONS ACROSS IT.