Bjt in saturation region

Of course,the highest saturation level is defined by the maximum collector current as provided by the specification sheet. Saturation conditions are normally avoided because the base–collector junction is no longer reverse-biased and the output amplified signal will be distorted. An oper-ating point in the saturation region is depicted in Fig ...

• Bi lBipolar JtiJunction TitTransistor (BJT) (C t’d)(Cont’d) – BJT operation in saturation mode –PNP BJT – Examples of small signal models Reading: Chapter 4.5‐4.6 EE105 Spring 2008 Lecture 4, Slide 1Prof. Wu, UC Berkeley Bipolar Transistor in Saturation EE105 Spring 2008 Lecture 4, Slide 2Prof. Wu, UC Berkeley SATURATION REGION (FULLY ON) A transistor is said to be saturated (Fully ON) when it is biased in such a way that current passes from the Emitter (E) to the Collector (C). In NPN and PNP bipolar junction transistors (BJTs), connecting the base (B) to the collector (C) makes the…..Read more> BJT Saturation Region. ACTIVE REGIONThe final region of operation of the BJT is the forward active region. It is in this region that the transistor can act as a fairly linear amplifier. In this region, we see that: 0:2 <V ce <V cc; where V cc is the supply voltage I b >0, and I c >0 V be 0:7V Thus, the transistor is on and the collector to emitter voltage is somewhere between ... Saturation region(포화영역) 포화영역은 트렌지스터의 스위치 기능중 스위치 on일 때를 담당하는 녀석입니다. 비유를 먼저 해보자면 벨브(베이스)를 많이 돌린 상태라면, 벨브를 더이상 아무리 많이 돌려도 수도꼭지(컬렉터)에 나오는 물(전류)의 양은 변화하지 ...In cutoff mode, the brake is engaged (zero base current), preventing motion (collector current). Active mode is the automobile cruising at a constant, controlled speed (constant, controlled collector current) as dictated by the driver. Saturation the automobile driving up a steep hill that prevents it from going as fast as the driver wishes.The active region is also known as saturation region in MOSFETs. However, naming it as saturation region may be misunderstood as the saturation region of BJT. Therefore, throughout this chapter, the name active region is used. The active region is characterized by a constant drain current, controlled by the gate-source voltage.

Of course,the highest saturation level is defined by the maximum collector current as provided by the specification sheet. Saturation conditions are normally avoided because the base–collector junction is no longer reverse-biased and the output amplified signal will be distorted. An oper-ating point in the saturation region is depicted in Fig ...In the news coverage of the Russian submarine accident, I read that the Norwegian salvage divers used a technique called saturation diving, whereby they could stay underwater for days to weeks at a time. How does saturation diving work? Adv...In this region, for a constant collector current, the base current also is (almost) constant. The saturation region corresponds to the horizontal part of these curves. A change in base current has (almost) no …Oct 30, 2015 · The saturation region of a BJT (e.g. when turned on as a switch) corresponds to the triode/ohmic region of a MOSFET. Some authors also call the saturation region of a MOSFET the "active mode", which does match the terminology used for BJTs. But they also call the triode/ohmic region the "linear mode" which perhaps doesn't help that much because ... Example: A BJT Circuit in Saturation Determine all currents for the BJT in the circuit below. 10.7 V 10.0 K Hey! I remember this circuit, its just like a previous example. The BJT is in …In this tutorial we'll introduce you to the basics of the most common transistor around: the bi-polar junction transistor (BJT). In small, discrete quantities, transistors can be used to create simple electronic switches, digital logic, and signal amplifying circuits. In quantities of thousands, millions, and even billions, transistors are ...The yellow region is the "linear", or "ohmic", or "triode" region. In the saturation region, the thick horizontal (well, slightly tilting upwards) straight lines (well, OK, curves) represent the (connected) points in the region of a particular Vgs value. So for example, the curve that the red dot sits represents the points of Vgs = 2.5V.

A BJT is said to be operated in the saturation region if: both the junctions are reverse biased. base-emitter junction is reverse biased and base collector ...BJT operating modes zForward active – Emitter-Base forward biased – Base-Collector reverse biased zSaturation – Both junctions are forward biased zReverse active – Emitter-Base reverse biased – Base-Collector forward biased – Transistor operation is poor in this direction, becauseβis low: lighter doping of the layer designed to be the12/3/2004 Example A BJT Circuit in Saturation 1/7 Example: A BJT Circuit in Saturation Determine all currents for the BJT in the circuit below. 10.0 K 2.0 K 5.7 V 10 K 10.7 V β = 99 Hey! I remember this circuit, its just like a previous example. The BJT is in active mode! Let’s see if you are correct! ASSUME it is in active mode and ENFORCE VOne commonly used definition is that a BJT is in saturation if both the base-emitter and base-collector junctions are forward biased. For an NPN transistor, this will be true when 0 < Vce < Vbe. Now, why does the base-collector junction conduct even when the voltage across it is less than the typical 0.6-0.7 volts required for a diode to conduct?1. Here's a typical Ic vs Vce diagram showing the saturation region of a BJT. In this case if Ib is set at 20uA and Vce varies between 0 and 2V you can clearly see that Ic will also vary from about 12mA (Vce=2V) to about 8mA @ Vce = 0.5V (very non linear) to 0mA @ Vce = 0V.

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Therefore, the transistor is operating in the saturation region. Q34. For the circuit in Fig. 27, find the base supply voltage ( V BB) that just puts the transistor into saturation. Assume β = 200. Fig.27. Solution : When transistor first goes into saturation, we can assume that the collector shorts to the emitter (i.e. V CE ...Sep 21, 2014 · From the output characteristics of a BJT, it is observable that in the active region, the collector current becomes constant or independent of collector emitter voltage. So, in true terms, it is saturation, then why do we call it the active region? Also, we have the equation:- Ic = (Vcc – Vce)/Rc Then, accordingly, with varying Vce, Ic should ... A Bipolar Junction Transistor (also known as a BJT or BJT Transistor) is a three-terminal semiconductor device consisting of two p-n junctions which are able to amplify or magnify a signal. It is a current controlled device. The three terminals of the BJT are the base, the collector and the emitter. A BJT is a type of transistor that uses both ...VB = 4.78V V B = 4.78 V. The load line for the circuit in Example 5.4.1 5.4. 1 is shown in Figure 5.4.4 5.4. 4. Figure 5.4.4 5.4. 4: DC load line for the circuit of Figure 5.4.3 5.4. 3. Once again the proportions …Apr 29, 2022 · The 0.4 V value is not so much a definition but an observation. In the active region, the curve is almost vertical; in the saturation region, the curve is almost horizontal; and there is a region in between. The exact value of V CE where the saturation region begins varies, and is different for other transistors. Bipolar junction transistor is classified into two types namely PNP and NPN based on types of doping of the terminals. In NPN transistor, two semiconductor junctions are there which have a thin anode region doped with ‘P’ whereas PNP transistor includes two semiconductor junctions that include a thin cathode region doped with ‘N’. ... In the cut …

The base emitter voltage in a saturation region is_____ a) greater than 0.7V b) equal to 0.7V c) less than 0.7V d) cannot be predicted View Answer. Answer: d ... BJT Device Strucutres BJT Characteristics BJT DC Circuits BJT Amplifier Design Signal Operations & Model BJT Configuration BJT Amplifier Circuits Spread Spectrum. Small-Signal Low …Therefore, a D.C. analysis problem for a BJT operating in the active region reduces to: find one of these values , , B C E ii ori and find one of these values or ( or ) CE ECCB BC V VV V Saturation For the saturation mode, we know all the BJT voltages, but know nothing about BJT currents! Thus, for an analysis of circuit with a BJT in ...2. You believe that when Vce is less than Vce (sat) you cannot be in saturation. This is incorrect. In saturation, Vce can be less than or equal to Vce sat. Really, the way to look at it is this: If the base emitter junction is forward biased AND the base collector junction is also forward biased, then the transistor is in saturation.To make a saturated solution of sodium chloride, find the solubility of sodium chloride in water, mix a solution of sodium chloride and water, and watch for saturation. The solubility of sodium chloride is 357 grams per 1 liter of cold wate...Aug 24, 2021 · The term "Saturation" means exactly the opposite for FETs and BJTs. The flat region is not in saturation for junction transistors. A transistor in saturation would be at the bottom left corner. By "Saturation voltage" they mean the collector to emitter voltage under the given conditions. Usually it is with a forced beta of 10 or 20. May 22, 2022 · Example 4.3.1 4.3. 1. Assume we have a BJT operating at VCE = 30 V C E = 30 V and IC = 4 I C = 4 mA. If the device is placed in a curve tracer and the resulting family of curves appears as in Figure 4.3.2 4.3. 2, determine the value of β β. Assume the base current is increased 10 μ μ A per trace. ١٥‏/٠٢‏/٢٠١٥ ... Monitor the collector-emitter voltage of your circuit with a DMM. If the reading is below 0.3V, the transistor is at saturation. Transistors are ...The active region is also known as saturation region in MOSFETs. However, naming it as saturation region may be misunderstood as the saturation region of BJT. Therefore, throughout this chapter, the name active region is used. The active region is characterized by a constant drain current, controlled by the gate-source voltage.BJT – A Review • Invented in 1948 by Bardeen, Brattain and Shockley • Contains three adjoining, alternately doped semiconductor regions: Emitter (E), Base (B), and Collector (C) • The middle region, base, is very thin • Emitter is heavily doped compared to collector. So, emitter and collector are not interchangeable. Three operating ...We would like to show you a description here but the site won’t allow us.

V CB = V CE – V BE = 3.55 V – 0.7 V = 2.85 V. Remember that the relation IC = ẞIB is only valid for transistors in the active region and does not work for transistors in saturation. Let’s do another slightly different example to illustrate how a BJT works. Ex 2: Take a gander at the circuit below. Beta is 100.

Transistor in saturation. Page 16. 16. ECE 315 – Spring 2007 – Farhan Rana ... becomes too large), the BJT will go into the saturation region (in the saturation.The Bipolar Junction Transistor is a semiconductor device which can be used for switching or amplification. Unlike semiconductor diodes which are made up from two pieces of semiconductor material to form one simple pn-junction. The bipolar transistor uses one more layer of semiconductor material to produce a device with properties and ... (c) Saturation region:Withbothdiodesforward-biasedinsaturation,thecol-lector current may be appreciable, but only a small voltage exists across the collector junction. This condition is nearly that of a closed switch. Operation of the BJT between cuto and saturation corresponds to the action of a switch.(1) Briefly describe the characteristics and parameters of BJT during saturation region. [6 marks) Classify whether the BJT in Figure Q2(a) is saturated or not.A bipolar junction transistor, BJT, is a single piece of silicon with two back-to-back P-N junctions.BJTs can be made either as PNP or as NPN. Figure 1: Structures, layers and circuit symbol of NPN transistor. They have three regions and three terminals, emitter, base, and collector represented by E, B, and C respectively.(1) Briefly describe the characteristics and parameters of BJT during saturation region. [6 marks) Classify whether the BJT in Figure Q2(a) is saturated or not.You can observe different regions for the output values, such as the Saturation region, Active region, and cut-off region of the graph, I hope by now you have a clear idea what these regions represent. These are the same corresponding values as we studied earlier in the emitter-collector configuration.

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A Bipolar Junction Transistor is a current controlled device which has three-terminals.The current in BJT is carried by both majority and minority carriers. ... Saturation region: In this region, the emitter-base …The 0.4 V value is not so much a definition but an observation. In the active region, the curve is almost vertical; in the saturation region, the curve is almost horizontal; and there is a region in between. The exact value of V CE where the saturation region begins varies, and is different for other transistors.Operation of Bipolar Junction Transistor. Operating regions of BJT are the saturated region, the cut-off region, and the active region. Saturation Region. The starting point of the turn is called the saturation region. The Saturation area is in the middle of the origin and constant point where the collector current becomes constant. Cut Off RegionA bipolar junction transistor, BJT, is a single piece of silicon with two back-to-back P-N junctions.BJTs can be made either as PNP or as NPN. Figure 1: Structures, layers and circuit symbol of NPN transistor. They have three regions and three terminals, emitter, base, and collector represented by E, B, and C respectively.Some causes of low iron saturation include chronic iron deficiency, uremia, nephrotic syndrome and extensive cancer, according to Medscape. Dietary causes of low iron deficiency include not incorporating enough foods containing iron into th...(c) Minority carrier distribution in the base region. Fig. 4.26 Operation of a p-n-p BJT in saturation region. As IB is increased from 20 µA to. 40 µA. the ...56). In NPN transistor __ terminal is given positive polarity? 57). A PNP BJT is said to be in ON when voltage of base with respect to emitter is ___? 58). What is the equation of current gain in BJT CB configuration? 59). What is the equation of resistance gain of BJT common base configuration? 60).Lecture12-Small Signal Model-BJT 3 Transistor Amplifiers BJT Amplifier Concept The BJT is biased in the active region by dc voltage source V BE. e.g., Q-point is set at (I C, V CE) = (1.5 mA, 5 V) with I B = 15 µA (β F = 100) Total base-emitter voltage is: v BE = V BE + v be Collector-emitter voltage is: v CE = V CC – i CR C This is the ...NPN Transistors are three-terminal, three-layer devices that can function as either amplifiers or electronic switches. In the previous tutorial we saw that the standard Bipolar Transistor or BJT, comes in two basic forms. An NPN ( N egative- P ositive- N egative) configuration and a PNP ( P ositive- N egative- P ositive) configuration.Saturation region This is the region in which transistor tends to behave as a closed switch. The transistor has the effect of its collector and Emitter being shorted. The collector and Emitter currents are maximum in this mode of operation. The figure below shows a transistor working in saturation region.Which quantity is getting saturated in so called 'saturation region' of BJT ? Obviously the collector current. It can be seen very clearly from the output characteristic graph that as you decrease the collector to emitter voltage, the corresponding current increases with reference to the DC load line. When the voltage becomes very less the ... ….

Hence the intial assumption that BJT is operating in the forward-active region is correct. (ii) Similarly for RB = 150 k we get IB = 62:0 A, IC = 6:20 mA and VCE = 2:40 V (VCE < 0:3 V). This shows that the assumption that BJT in forward-active region is wrong. Let BJT be in the saturation region. The we have V BE(sat) = 0:8 V and V CE(sat) = 0: ...A question about Vce of an NPN BJT in saturation region. Below is an NPN transistor symbol and the voltages at its terminals are Vb, Vc and Ve with respect to the ground: I read that: during the saturation the Vce = (Vc-Ve) settles to around 0.2V and the further increase in base current will not make Vce zero. Forward-active region is correct. Lecture 10: BJT Physics 16 Simplified Circuit Mode Saturation Region • In the saturation region, both junctions are forward-biased, and the transistor operates with a small voltage between collector and emitter. v CESAT is the saturation voltage for the npn BJT. No simplified expressions exist for The Bipolar Junction Transistor (II) Regimes of Operation Outline • Regimes of operation • Large-signal equivalent circuit model • Output characteristics Reading Assignment: Howe and Sodini; Chapter 7, Sections 7.3, 7.4 & 7.5 Announcement: Quiz #2: April 25, 7:30-9:30 PM at Walker. Calculator Required. Open book. it means that the voltage of Vce is 0.6 in saturation mode of bjt. if. Ibβ>Ic BJT is in saturation in active region. Ib = βIc remove the bjt from the circuit ...Bipolar junction transistor is classified into two types namely PNP and NPN based on types of doping of the terminals. In NPN transistor, two semiconductor junctions are there which have a thin anode region doped with ‘P’ whereas PNP transistor includes two semiconductor junctions that include a thin cathode region doped with ‘N’. ... In the cut …I should say an important thing to you about saturation region: In mosfets: when VGS become near 15 volts , your mosfet will work in saturation region . and about IGBT s too(GE =15) . and about BJT s : when BE voltage become 0.6 volt for silicon ( with enough base current) your BJT will work in saturation region.Saturation Region: In saturation region, both of the junctions of the BJT are in forward bias. This region is used for the ON-state of a switch where; i c = i sat. I sat is the saturation current & it is the maximum amount of current flowing between emitter and collector when BJT is in saturation region. Since both junctions are in forward bias ... Yes, and this is why the region of Vce<0.7 is the saturation region. But, the transistor equations say that the current in a forward biased junction is exponentially related to the voltage. So, very little forward bias current is flowing if Vce=0.6 V, as this is only a 0.1 V forward bias. Let's run some typical numbers for a silicon diode. Bjt in saturation region, The saturation region does include the scenario when CB is forward biased but I don't think this is particularly helpful - the saturation region (or close to it) must still encompass normal transistor amplification and, as far as I know, this cannot happen when collector and base are forward biased. , New quiescent point avoids saturation region. Now that we know a little more about the consequences of different DC bias voltage levels, it is time to investigate practical biasing techniques. DC voltage source (battery) connected in series with the AC input signal to bias the amplifier for whatever desired class of operation., 14. There is a precise definition and a sloppy one for saturation. I'll start with the precise one. That's pretty much it. The saturation region is precisely defined here. The sloppy one comes about because the practical behavior of different parameters of the BJT don't all neatly fall so perfectly on those lines., The Bipolar Junction Transistor is a semiconductor device which can be used for switching or amplification. Unlike semiconductor diodes which are made up from two pieces of semiconductor material to form one simple pn-junction. The bipolar transistor uses one more layer of semiconductor material to produce a device with properties and ..., Saturation Region: In saturation region, both of the junctions of the BJT are in forward bias. This region is used for the ON-state of a switch where; i c = i sat. I sat is the saturation current & it is the maximum amount of current flowing between emitter and collector when BJT is in saturation region. Since both junctions are in forward bias ..., Saturation Region of BJT. The BJT operates in the saturation region when its collector current is not dependent on the base current and has reached a maximum. The condition for this to happen is that both the base-emitter and the base …, SATURATION REGION (FULLY ON) A transistor is said to be saturated (Fully ON) when it is biased in such a way that current passes from the Emitter (E) to the Collector (C). In NPN and PNP bipolar junction transistors (BJTs), connecting the base (B) to the collector (C) makes the PN-junction from the base (B) to the emitter (E) to be forward bias., In cut off region, both emitter to base and base to collector junction is in the reverse bias and no current flows through the transistor. The transistor acts as an open switch. In the saturation region, both the junctions are in forwarding bias, and the transistor acts as a closed switch. In cut off region the output of the transistor VCE, IC ..., 8,625 21 31. In saturation region (where Vce<0.2V) the "beta" is much lower than in the active region (where Vce>0.2V); this makes Ic much smaller for a fixed base current in the saturation region. When one saturates transistor by achieving Vbe>=700mV, from now on the transistor will have a low beta since it is now in …, SATURATION REGION (FULLY ON) A transistor is said to be saturated (Fully ON) when it is biased in such a way that current passes from the Emitter (E) to the Collector (C). In NPN and PNP bipolar junction transistors (BJTs), connecting the base (B) to the collector (C) makes the PN-junction from the base (B) to the emitter (E) to be forward bias., The BJT symbols and their corresponding block diagrams are shown on Figure 1. The BJT is fabricated with three separately doped regions. The npn device has one p region between two n regions and the pnp device has one n region between two p regions. The BJT has two junctions (boundaries between the n and the p regions). These junctions, The Bipolar Junction Transistor is a semiconductor device which can be used for switching or amplification. Unlike semiconductor diodes which are made up from two pieces of semiconductor material to form one simple pn-junction. The bipolar transistor uses one more layer of semiconductor material to produce a device with properties and ... , Apart from the BJT active region, below are links to the other two operation region of bipolar junction transistor (BJT). That is; cutoff (FULLY OFF) region and saturation (FULLY ON) region. CUTOFF REGION (FULLY OFF) In Bipolar Junction Transistor (BJT) cut off region or fully off region, the transistor is bias in such a way that …, BJT – A Review • Invented in 1948 by Bardeen, Brattain and Shockley • Contains three adjoining, alternately doped semiconductor regions: Emitter (E), Base (B), and Collector (C) • The middle region, base, is very thin • Emitter is heavily doped compared to collector. So, emitter and collector are not interchangeable. Three operating ..., Introduction to Bipolar Junction Transistors. The Bipolar Junction Transistor (BJT) is a device made of three layers of semiconductor material; these layers can be either P-type or N-type. The pins of a BJT are named base, collector, and emitter. Each pin is connected to one of these layers. There are two different types of BJTs known as PNP ..., 14. There is a precise definition and a sloppy one for saturation. I'll start with the precise one. That's pretty much it. The saturation region is precisely defined here. The sloppy one comes about because the practical behavior of different parameters of the BJT don't all neatly fall so perfectly on those lines., Apart from the BJT active region, below are links to the other two operation region of bipolar junction transistor (BJT). That is; cutoff (FULLY OFF) region and saturation (FULLY ON) region. CUTOFF REGION (FULLY OFF) In Bipolar Junction Transistor (BJT) cut off region or fully off region, the transistor is bias in such a way that …, The MOSFET triode region: -. Is equivalent to the BJT saturation region: -. The BJT active region is equivalent to the MOSFET saturation region. For both devices, normal amplifier operation is the right hand side of each graph. In switching applications, both devices are "on" in the left hand half of the graph. Share., it means that the voltage of Vce is 0.6 in saturation mode of bjt. if. Ibβ>Ic BJT is in saturation in active region. Ib = βIc remove the bjt from the circuit ..., 2. You kind of don't need too many equations. Look at the datasheet to get Vce,sat and Vbe,sat - then make those the junction voltages. Then solve for currents and voltages. So maybe Vbe is 0.7 V and Vce is 0.2 V. Then just do nodal analysis and verify that current is flowing the correct way for a BJT in saturation., When a bipolar junction transistor (BJT) is used to switch a load (e.g. a relay, an LED, a buzzer, a small motor, etc) ON and OFF, it is most often operated as a "saturated switch". This article explains saturation in BJTs - why it is used, and how to calculate the base resistor to ensure saturation. General circuit arrangement, This stage is called Saturation Region and the typical voltage allowed across the Collector-Emitter (V­ CE) or Base-Emitter (V BE) could be 200 and 900 mV respectively. When base current is removed the transistor becomes fully off, this stage is called as the Cut-off Region and the Base Emitter voltage could be around 660 mV., Now suppose I have BJT characteristic curve : In Active region, The response is : Ic = F(Vce) = const. So it is linear. In Cut off region, Response is : Ic = F(Vce) = 0. - No matter how large the increase in Vce, Ic is still zero. It is Similar to Air gap. So it should be linear as well. In Saturation region, Response is : Ic = const * Vce., Mar 10, 2021 · The yellow region is the "linear", or "ohmic", or "triode" region. In the saturation region, the thick horizontal (well, slightly tilting upwards) straight lines (well, OK, curves) represent the (connected) points in the region of a particular Vgs value. So for example, the curve that the red dot sits represents the points of Vgs = 2.5V. , The active region is also known as saturation region in MOSFETs. However, naming it as saturation region may be misunderstood as the saturation region of BJT. Therefore, throughout this chapter, the name active region is used. The active region is characterized by a constant drain current, controlled by the gate-source voltage. , Course: Modern Physics (Essentials) - Class 12th > Unit 5. Lesson 5: Building tiny tiny switches that make up our computers! Input characteristics of NPN transistor. Output characteristics of NPN transistor. Active, saturation, & cutoff state of NPN transistor. Transistor as a voltage amplifier., • In order to keep BJT at least in soft saturation region, the collector voltage must not fall below the base voltage by more than 400mV. • A linear relationship can be derived for V CC and R C and an acceptable region can be chosen. VIRV mV CC C C BE≥+−(400), The book suggests that BJT constructs a constant current source for the LED and β β is subject to change from multiple parameters thus should be not used to calculate collector current in practical design. Supposed β β is ~25, Ib I b is (3.3-0.6)/10k = 0.27mA and hence Ic I c is preliminarily "guessed" to be 6.75mA., Structure of Bipolar Junction Transistor A bipolar junction transistor, BJT, is a single piece of silicon with two back-to-back P-N junctions.BJTs can be made either as PNP or as NPN. ... Saturation Region: Base-emitter junction is forward biased and Collector-base junction is forward biased. Active Region: Base-emitter is junction forward biased and …, The collector current of the BJT starts to increase at a higher collector-emitter voltage, but the slope is more abrupt. The saturation region ends at a specific collector-emitter voltage for any base current, so the length of the saturation region depends only on the model of the transistor., Apart from the BJT active region, below are links to the other two operation region of bipolar junction transistor (BJT). That is; cutoff (FULLY OFF) region and saturation (FULLY ON) region. CUTOFF REGION (FULLY OFF) In Bipolar Junction Transistor (BJT) cut off region or fully off region, the transistor is bias in such a way that …, V CB = V CE – V BE = 3.55 V – 0.7 V = 2.85 V. Remember that the relation IC = ẞIB is only valid for transistors in the active region and does not work for transistors in saturation. Let’s do another slightly different example to illustrate how a BJT works. Ex 2: Take a gander at the circuit below. Beta is 100., SATURATION REGION (FULLY ON) A transistor is said to be saturated (Fully ON) when it is biased in such a way that current passes from the Emitter (E) to the Collector (C). In NPN and PNP bipolar junction transistors (BJTs), connecting the base (B) to the collector (C) makes the PN-junction from the base (B) to the emitter (E) to be forward bias.