8 MHz Other Function Transistors 35

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Part	Manufacturer	Polarity or Channel Type	Configuration	Surface Mount	Nominal Transition Frequency (fT)	Maximum Power Dissipation (Abs)	Maximum Collector Current (IC)	No. of Elements	Sub-Category	Minimum DC Current Gain (hFE)	Maximum Operating Temperature	Terminal Finish	JESD-609 Code
TIPL763	Texas Instruments	NPN	SINGLE	NO	8 MHz	120 W	8 A	1	Other Transistors	15	140 Cel
ASY26	Texas Instruments	PNP	SINGLE	NO	8 MHz	.15 W	.3 A	1	Other Transistors		100 Cel
BUX47B	Texas Instruments	NPN	SINGLE	NO	8 MHz	125 W	9 A	1	Other Transistors	5	175 Cel
TIPL765A	Texas Instruments	NPN	SINGLE	NO	8 MHz	125 W	10 A	1	Other Transistors	15	140 Cel
BU126	Texas Instruments	NPN	SINGLE	NO	8 MHz	30 W	3 A	1	Other Transistors	15	125 Cel
2N862	Texas Instruments	PNP	SINGLE	NO	8 MHz	.15 W	.05 A	1	Other Transistors	12	140 Cel
TIPL763A	Texas Instruments	NPN	SINGLE	NO	8 MHz	120 W	8 A	1	Other Transistors	15	140 Cel
2S701	Texas Instruments	NPN	SINGLE	NO	8 MHz	.1 W	.02 A	1	Other Transistors		100 Cel
2N334A	Texas Instruments	NPN	SINGLE	NO	8 MHz	.5 W	.025 A	1	Other Transistors		175 Cel
TIPL765	Texas Instruments	NPN	SINGLE	NO	8 MHz	125 W	10 A	1	Other Transistors	15	140 Cel
BUX80	Texas Instruments	NPN	SINGLE	NO	8 MHz	150 W	10 A	1	Other Transistors		175 Cel
2SD331F	Onsemi	NPN	SINGLE	NO	8 MHz	20 W	2 A	1	Other Transistors	160	150 Cel
2SD331C	Onsemi	NPN	SINGLE	NO	8 MHz	20 W	2 A	1	Other Transistors	40	150 Cel
2SD387A	Onsemi	NPN	SINGLE	NO	8 MHz	25 W	2 A	1	Other Transistors	40	150 Cel
2SD387C	Onsemi	NPN	SINGLE	NO	8 MHz	25 W	10 A	1	Other Transistors	40	150 Cel
2SD314C	Onsemi	NPN	SINGLE	NO	8 MHz	30 W	3 A	1	Other Transistors	40	150 Cel
2SD314D	Onsemi	NPN	SINGLE	NO	8 MHz	30 W	3 A	1	Other Transistors	60	150 Cel
2SD387AD	Onsemi	NPN	SINGLE	NO	8 MHz	25 W	2 A	1	Other Transistors	60	150 Cel
2SD386AF	Onsemi	NPN	SINGLE	NO	8 MHz	25 W	2 A	1	Other Transistors	160	150 Cel
2SD386AE	Onsemi	NPN	SINGLE	NO	8 MHz	25 W	2 A	1	Other Transistors	100	150 Cel
2SD387E	Onsemi	NPN	SINGLE	NO	8 MHz	25 W	10 A	1	Other Transistors	100	150 Cel
2SD387F	Onsemi	NPN	SINGLE	NO	8 MHz	25 W	10 A	1	Other Transistors	160	150 Cel
2SD314E	Onsemi	NPN	SINGLE	NO	8 MHz	30 W	3 A	1	Other Transistors	100	150 Cel
2SD331E	Onsemi	NPN	SINGLE	NO	8 MHz	20 W	2 A	1	Other Transistors	100	150 Cel
2SD387AC	Onsemi	NPN	SINGLE	NO	8 MHz	25 W	2 A	1	Other Transistors	40	150 Cel
2SD386AC	Onsemi	NPN	SINGLE	NO	8 MHz	25 W	2 A	1	Other Transistors	40	150 Cel
2SD387AE	Onsemi	NPN	SINGLE	NO	8 MHz	25 W	2 A	1	Other Transistors	100	150 Cel
2SD386A	Onsemi	NPN	SINGLE	NO	8 MHz	25 W	2 A	1	Other Transistors		150 Cel
2SD387	Onsemi	NPN	SINGLE	NO	8 MHz	25 W	10 A	1	Other Transistors		140 Cel
2SD386AD	Onsemi	NPN	SINGLE	NO	8 MHz	25 W	2 A	1	Other Transistors	60	150 Cel
2SD314F	Onsemi	NPN	SINGLE	NO	8 MHz	30 W	3 A	1	Other Transistors	160	150 Cel
2SD331D	Onsemi	NPN	SINGLE	NO	8 MHz	20 W	2 A	1	Other Transistors	60	150 Cel
2SD387AF	Onsemi	NPN	SINGLE	NO	8 MHz	25 W	2 A	1	Other Transistors	160	150 Cel
2SD387D	Onsemi	NPN	SINGLE	NO	8 MHz	25 W	10 A	1	Other Transistors	60	150 Cel
TSB3055	Toshiba	NPN	SINGLE	NO	8 MHz	70 W	10 A	1	Other Transistors	20	140 Cel	Tin/Lead (Sn/Pb)	e0

Other Function Transistors

Other function transistors are a category of transistors that perform specialized functions beyond basic switching and amplification. These transistors are designed to perform specific tasks in electronic circuits, and are used in various applications such as signal processing, voltage regulation, and power management.

Some examples of other function transistors include:

1. Darlington Transistors: Used in high-current and high-voltage applications where a single transistor cannot provide the required gain. Darlington transistors consist of two transistors connected in series, which provide a high gain and low input current.

2. Schottky Transistors: Used in high-speed digital circuits to reduce switching losses and improve efficiency. Schottky transistors use a Schottky barrier diode in combination with a transistor to reduce the voltage drop across the device.

3. Phototransistors: Used in applications where a signal needs to be detected and converted into an electrical signal. Phototransistors use a photodiode to detect light and a transistor to amplify the signal.

4. Bipolar Junction Transistors (BJT): Used in analog circuits for amplification and switching applications. BJTs have a high current gain and low input resistance, making them useful in low-power applications.

5. Junction Field-Effect Transistors (JFET): Used in low-noise and high-impedance applications, such as audio amplifiers and analog switches. JFETs have a high input impedance and low noise, making them suitable for low-power applications.

Other function transistors are available in various sizes and configurations, depending on the specific application. They are subject to various standards and regulations, such as JEDEC (Joint Electron Device Engineering Council) and RoHS (Restriction of Hazardous Substances), to ensure their safety and performance. Proper selection and design of other function transistors are critical to ensure optimal performance, reliability, and compatibility with other components in the circuit.