Persamaan Ic Mosfet Dan Scr

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Transistor Pengganti TIP41 & TIP 42 - ONSOLDER Persamaan Ic D313 - lasopachrome Transistor Pengganti TIP41 & TIP 42 - ONSOLDER TIP41 Datasheet, Equivalent, Cross Reference Search. Transistor Catalog Bengkel master: Persamaan tip 2955 dan tip 3055 TIP41 npn transistor complementary pnp, replacement, pinout, pin configuration, substitute, smd.

Persamaan Ic Mosfet Dan Scr

Type Designator: C103

Material of Transistor: Si

Polarity: PNP

Maximum Collector Power Dissipation (Pc): 0.25 W

Maximum Collector-Emitter Voltage |Vce|: 6 V

Maximum Collector Current |Ic max|: 0.05 A

Max. Operating Junction Temperature (Tj): 175 °C

Transition Frequency (ft): 0.6 MHz

Collector Capacitance (Cc): 75 pF

Forward Current Transfer Ratio (hFE), MIN: 15

Noise Figure, dB: -

Package: TO5

C103 Transistor Equivalent Substitute - Cross-Reference Search


C103 Datasheet (PDF)

0.1. dmc1030ufdb.pdf Size:347K _diodes

DMC1030UFDBCOMPLEMENTARY PAIR ENHANCEMENT MODE MOSFET Product Summary Features ID MAX Low On-ResistanceDevice V(BR)DSS RDS(ON) max TA = +25C Low Input Capacitance Low Profile, 0.6mm Max Height 34m @ VGS = 4.5V 5.1A ESD Protected Gate 40m @ VGS = 2.5V 4.7A Q1 12V Totally Lead-Free & Fully RoHS Compliant (Notes 1 & 2) N-Channel 50m @ VGS

0.2. 2sc1034.pdf Size:453K _sony

0.3. 2sc1030.pdf Size:44K _jmnic

Power Transistors www.jmnic.com 2SC1030 Silicon NPN Transistors 1B 2E 3C Features With TO-3 package Low frequency power amplifications Absolute Maximum Ratings Tc=25 SYMBOL PARAMETER RATING UNITVCBO Collector to base voltage 150 V VCEO Collector to emitter voltage 80 V VEBO Emitter to base voltage 6 V IC Collector current-Continuous 6 A PD Total Power Dissipation@TC

0.4. mmbtrc101ss mmbtrc102ss mmbtrc103ss mmbtrc104ss mmbtrc105ss mmbtrc106ss.pdf Size:106K _diotec

MMBTRC101SS ... MMBTRC106SSMMBTRC101SS ... MMBTRC106SSSurface Mount Bias Resistor TransistorsNPN NPNSMD Transistoren mit EingangsspannungsteilerVersion 2011-02-10Power dissipation Verlustleistung 200 mW 0.11.1 2.9Plastic case SOT-230.4 3Kunststoffgehuse (TO-236)TypeWeight approx. Gewicht ca. 0.01 gCode1 2Plastic material has UL classification 94V-

0.5. 2sc1034.pdf Size:181K _inchange_semiconductor

INCHANGE Semiconductorisc Silicon NPN Power Transistor 2SC1034DESCRIPTIONDC Current Gain -h = 4(Min)@ I = 0.75AFE CCollector-Emitter Sustaining Voltage-: V = 700V(Min)CEO(SUS)Minimum Lot-to-Lot variations for robust device performanceand reliable operation.APPLICATIONSDesigned for use in general purpose power amplifier andswitching applicationsABSOLUTE MAXIMUM

Datasheet: C1, C100, C1001, C1002, C1003, C1004, C101, C102, 2N5088, C106, C112, C1-12, C118, C119, C12-28, C1-28, C150.



Persamaan Ic Mosfet Dan Scratch


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BJT: TMPTH81 | TMPTA93 | TMPTA92 | TMPTA70 | TMPTA64 | TMPTA63 | TMPTA56 | TMPTA55 | TMPT5401 | TMPT5087 | TMPT5086 | TMPT4403 | TMPT4402 | TMPT4126 | TMPT4125 | TMPT3906 | TMPT3905 | TMPT3798A | TMPT3798 | TMPT3638A | TMPT3638


2P4M is a solid state semiconductor device called Thyristor or SCR (Silicon Controlled Rectifier). The device is designed to have highly sensitive trigger levels and is suitable for applications where available gate currents are limited.

Dan

Pin Configuration

2P4M is a three pin device as shown in above 2P4M pin diagram and we will describe each of these pins below.

Pin

Name

Function

1

Cathode

Connected to neutral

2

Gate

Low voltage trigger pulse is given to this pin to turning ON the SCR

3

Anode

Connected to Load

2P4M Features and Electrical characteristics

  • Easy installation by its miniature size and thin electrode leads
  • Low cost
  • Less holding current distribution provides free application design
  • Peak reverse blocking voltage: 500V
  • Peak on-state current: 2A
  • Peak gate current: 0.2A
  • Peak gate reverse voltage: 6V
  • Operating junction temperature range: -40ºC to +125ºC
  • Storage temperature range: -55ºC to +150ºC

2P4M Equivalent SCR

SN102, TIC206D, BT169, TYN604, 2N1596, 2N1595

2P4M SCR Overview

2P4M basically used in applications where gate currents are limited, such as capacitive discharge ignitions, motor control in kitchen aids and over voltage protection in low power supplies. The device is also used in low voltage AC rectifier and RMS voltage controller applications.

How to use 2P4M SCR

First understanding the working let us consider a simple application circuit for the device as shown in the circuit diagram below. Here V1 is the DC voltage source, a resistor type load is connected in series with SCR and Vg is the trigger voltage at the gate of the device. In addition Button 2 will be close by default and will break the circuit once it is pressed. Also in circuit, device Anode is connected to load and cathode is connected to second end of power source.

At initial state button B1 will be not pressed and in gate voltage absence SCR will be in non-conductive state. So under no trigger to the gate of the SCR (i.e. Vg =0V), the total drop appears across the device and we have Vload = 0V as shown in graph. This state continuous until a voltage pulse is give to the gate of the device and this is possible when button B1 is pressed.

So when B1 is pressed at a time T1 as shown in graph, SCR starts conducting and a voltage appears across the load as shown in the graph. Since the power supply is DC the SCR which was triggered ON will stay in conduction mode even after the gate voltage is removed after the device starts conducting. This is due to the characteristics of the device as a SCR.

Now for recovering the SCR to its high resistance state the current flow though the device must be brought to zero for fraction of second. Once the current is cutoff the charge stored in the device will dissipate and it will recover to its initial forward blocking state. And to drop the current through the loop to zero we will press button B2. Once this button is pressed the circuit loop will break and current flow though the device will become zero. As show in graph once the button B2 is pressed the voltage across the load will become zero due to the loop break and the device will start recovering.

After button B2 is released the device will again block the forward DC voltage and will wait for the gate pulse. So until the button B1 is pressed again the load voltage will be zero. As shown in graph the voltage appears across load after second trigger and this cycle of triggering and breaking continuous.

Persamaan Ic Mosfet Dan Screen

This way we have used the SCR as a switching device and in a similar way we can use in other applications.

Applications

  • Capacitor discharge ignitions
  • Motor control
  • Light dimmer
  • Battery charger
  • Various temperature control
  • AC rectifiers
  • RMS voltage switching
  • Power converters
  • Industrial switching

2D-Model

Persamaan Ic Mosfet Dan Screw

All measurements are in millimeter

Persamaan Ic Mosfet Dan Screaming

2P4M SCR Datasheet

Persamaan Ic Mosfet Dan Script


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