INSTALL
लोकप्रिय
Manikanta
698 ने देखा
•
1 महीने पहले
•
Made with AI
What is a emitter
#emitter
#educational post
3
9
कमेंट
Your browser does not support JavaScript!
![emitter - EMITTER (ofa Transistor) 1 What are they? An essential region in a BJT (Bipolar Junction Transis that emits or injects charge carriers (electrons Or holes) into the Base/ Carrier POWER DISTRIBU Flowl V=I*R (Ohm's Law Triangle Trickl) (Motor with SCR commutator 2. Operation (How they Work): Think of water in a pipe but pushing sheathed togetrons together but for electrons! frictionlopposition Current (T) pressure push limits current (I) depends on mon monopoles path is zero (conservative) Work done moving a charge around a closed path ->Brushes Rotates Rotating Brushes > Brushes press on Commutator! Practical Diode: sensing has lag Ideal Diode: perfect sensing; loading effect generates false trips! instant trip (theoryl) Components (The Parts): Key Power Measurement (Wattsl) 3. Emitter Region (Highly Dopedl) | Collector (C) (Receives Current!) Source (S) (Source of electrons!) Common point! Charging Port (ACIDC Input)- AP NNK ** collects & distributes! PC has high resistancel #*REMEMBER** PC has high resistancel Step-up: Vs > VP Current flows P-to-NI Step-down: Vs < VP Np Ns VP / Vs 4. Characteristics & Analogy: Doping Concentration: Emitter is highly doped, Practical Diode Output changes slightly loading effect generates heat is zero (conservative) REMEMBER**]a charge around a closed path electronic Induction energy meters Dynamometer VS Zener; LED, Schottky are different typesl LED lights up in doodles: VOM VS V=1*R V= -L (di U Start High on Range, Connect Probes Right! VL = - L(dt AC Generator uses slip rings to output alternating current! 2 EMITTER (ofa Transistor) 1 What are they? An essential region in a BJT (Bipolar Junction Transis that emits or injects charge carriers (electrons Or holes) into the Base/ Carrier POWER DISTRIBU Flowl V=I*R (Ohm's Law Triangle Trickl) (Motor with SCR commutator 2. Operation (How they Work): Think of water in a pipe but pushing sheathed togetrons together but for electrons! frictionlopposition Current (T) pressure push limits current (I) depends on mon monopoles path is zero (conservative) Work done moving a charge around a closed path ->Brushes Rotates Rotating Brushes > Brushes press on Commutator! Practical Diode: sensing has lag Ideal Diode: perfect sensing; loading effect generates false trips! instant trip (theoryl) Components (The Parts): Key Power Measurement (Wattsl) 3. Emitter Region (Highly Dopedl) | Collector (C) (Receives Current!) Source (S) (Source of electrons!) Common point! Charging Port (ACIDC Input)- AP NNK ** collects & distributes! PC has high resistancel #*REMEMBER** PC has high resistancel Step-up: Vs > VP Current flows P-to-NI Step-down: Vs < VP Np Ns VP / Vs 4. Characteristics & Analogy: Doping Concentration: Emitter is highly doped, Practical Diode Output changes slightly loading effect generates heat is zero (conservative) REMEMBER**]a charge around a closed path electronic Induction energy meters Dynamometer VS Zener; LED, Schottky are different typesl LED lights up in doodles: VOM VS V=1*R V= -L (di U Start High on Range, Connect Probes Right! VL = - L(dt AC Generator uses slip rings to output alternating current! 2 - ShareChat](https://cdn4.sharechat.com/bd5223f_s1w/compressed_gm_40_img_75029_348f9aff_1776133073292_sc.jpg?tenant=sc&referrer=pwa-sharechat-service&f=292_sc.jpg "emitter - EMITTER (ofa Transistor) 1 What are they? An essential region in a BJT (Bipolar Junction Transis that emits or injects charge carriers (electrons Or holes) into the Base/ Carrier POWER DISTRIBU Flowl V=I*R (Ohm's Law Triangle Trickl) (Motor with SCR commutator 2. Operation (How they Work): Think of water in a pipe but pushing sheathed togetrons together but for electrons! frictionlopposition Current (T) pressure push limits current (I) depends on mon monopoles path is zero (conservative) Work done moving a charge around a closed path ->Brushes Rotates Rotating Brushes > Brushes press on Commutator! Practical Diode: sensing has lag Ideal Diode: perfect sensing; loading effect generates false trips! instant trip (theoryl) Components (The Parts): Key Power Measurement (Wattsl) 3. Emitter Region (Highly Dopedl) | Collector (C) (Receives Current!) Source (S) (Source of electrons!) Common point! Charging Port (ACIDC Input)- AP NNK ** collects & distributes! PC has high resistancel #*REMEMBER** PC has high resistancel Step-up: Vs > VP Current flows P-to-NI Step-down: Vs < VP Np Ns VP / Vs 4. Characteristics & Analogy: Doping Concentration: Emitter is highly doped, Practical Diode Output changes slightly loading effect generates heat is zero (conservative) REMEMBER**]a charge around a closed path electronic Induction energy meters Dynamometer VS Zener; LED, Schottky are different typesl LED lights up in doodles: VOM VS V=1*R V= -L (di U Start High on Range, Connect Probes Right! VL = - L(dt AC Generator uses slip rings to output alternating current! 2 EMITTER (ofa Transistor) 1 What are they? An essential region in a BJT (Bipolar Junction Transis that emits or injects charge carriers (electrons Or holes) into the Base/ Carrier POWER DISTRIBU Flowl V=I*R (Ohm's Law Triangle Trickl) (Motor with SCR commutator 2. Operation (How they Work): Think of water in a pipe but pushing sheathed togetrons together but for electrons! frictionlopposition Current (T) pressure push limits current (I) depends on mon monopoles path is zero (conservative) Work done moving a charge around a closed path ->Brushes Rotates Rotating Brushes > Brushes press on Commutator! Practical Diode: sensing has lag Ideal Diode: perfect sensing; loading effect generates false trips! instant trip (theoryl) Components (The Parts): Key Power Measurement (Wattsl) 3. Emitter Region (Highly Dopedl) | Collector (C) (Receives Current!) Source (S) (Source of electrons!) Common point! Charging Port (ACIDC Input)- AP NNK ** collects & distributes! PC has high resistancel #*REMEMBER** PC has high resistancel Step-up: Vs > VP Current flows P-to-NI Step-down: Vs < VP Np Ns VP / Vs 4. Characteristics & Analogy: Doping Concentration: Emitter is highly doped, Practical Diode Output changes slightly loading effect generates heat is zero (conservative) REMEMBER**]a charge around a closed path electronic Induction energy meters Dynamometer VS Zener; LED, Schottky are different typesl LED lights up in doodles: VOM VS V=1*R V= -L (di U Start High on Range, Connect Probes Right! VL = - L(dt AC Generator uses slip rings to output alternating current! 2 - ShareChat")