Name: ZTX653STOB
Brand: Diodes Incorporated
SKU: ZTX653STOB
Availability: InStock

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ZTX653STOB

Manufacturer part number:ZTX653STOB

Manufacturer:Diodes Incorporated

Description:ZTX653STOB datasheet pdf and Transistors - Bipolar (BJT) - Single product details from Diodes Incorporated stock available on our website

Case Package:SOT-23

Datasheet:ZTX653STOB Datasheet PDF

RoHs Status:non-compliant

Parameter Name	Value
Type	Parameter
Mount	Through Hole
Mounting Type	Through Hole
Package / Case	E-Line-3, Formed Leads
Number of Pins	3
Weight	453.59237mg
Transistor Element Material	SILICON
Operating Temperature	-55°C~200°C TJ
Packaging	Tape & Reel (TR)
Published	2012
JESD-609 Code	e3
Part Status	Obsolete
Moisture Sensitivity Level (MSL)	1 (Unlimited)
Number of Terminations	3
ECCN Code	EAR99
Terminal Finish	MATTE TIN
Voltage - Rated DC	100V
Max Power Dissipation	1W
Terminal Form	WIRE
Peak Reflow Temperature (Cel)	260
Current Rating	2A
Frequency	175MHz
[email protected] Reflow Temperature-Max (s)	40
Base Part Number	ZTX653
Pin Count	3
Reference Standard	CECC
Qualification Status	Not Qualified
Number of Elements	1
Element Configuration	Single
Power Dissipation	1W
Transistor Application	SWITCHING
Gain Bandwidth Product	175MHz
Polarity/Channel Type	NPN
Transistor Type	NPN
Collector Emitter Voltage (VCEO)	100V
Max Collector Current	2A
Current - Collector Cutoff (Max)	100nA ICBO
Vce Saturation (Max) @ Ib, Ic	500mV @ 200mA, 2A
Collector Emitter Breakdown Voltage	100V
Transition Frequency	140MHz
Collector Base Voltage (VCBO)	120V
Emitter Base Voltage (VEBO)	5V
DC Current Gain-Min (hFE)	25
Continuous Collector Current	2A
Height	4.01mm
Length	4.77mm
Width	2.41mm
RoHS Status	RoHS Compliant
Lead Free	Lead Free

ZTX653STOB Product Details

ZTX653STOB Description

ZTX653STOB is a 120V NPN silicon planar medium power transistor. Discrete Bipolar Junction Transistors (BJTs) are commonly used to construct analog signal amplification functions in audio, radio, and other applications. One of the first semiconductor devices to be mass produced, their characteristics are less favorable than those of other device types for applications involving high-frequency switching and operation with high currents or voltages, but they remain a technology of choice for applications requiring analog signal reproduction with minimal added noise and distortion.