2N3053 TO-39 NPN Transistor Technical Specifications & Practical Uses

FREE-SKY (HK) ELECTRONICS CO.,LIMITED / 12-23 17:45

The 2N3053 General Purpose NPN Transistor is widely used in electronic circuits that require reliable amplification and switching performance. This article will discuss the 2N3053 transistor’s basics, specifications, features, pinout, working principles, applications, comparisons, advantages, limitations, and more.

Catalog

1. 2N3053 Transistor Basic

2. 2N3053 Transistor CAD Models

3. 2N3053 Transistor Pinout Details

4. Alternatives & Equivalent Model

5. 2N3053 Transistor Specifications

6. Electrical Characteristics

7. 2N3053 Transistor Features

8. 2N3053 Transistor Working in Circuit

9. 2N3053 Transistor Applications

10. 2N3053 Safely Operation

11. Comparison: 2N3053 vs 2N3055

12. 2N3053 Mechanical Dimensions

13. Advantages & Limitations

14. Manufacturer

2N3053 Transistor Basic

The 2N3053 General Purpose NPN Transistor from Central Semiconductor is a reliable bipolar junction transistor. It is housed in a TO-39 metal can package, which offers good thermal performance and durability.

This transistor supports moderate voltage and current levels, allowing it to handle signal amplification, driver stages, and medium-power switching tasks. With its stable DC current gain and relatively high transition frequency, the 2N3053 performs well in audio amplifiers, RF circuits, and control systems that require consistent and predictable operation.

If you are interested in purchasing the 2N3053, feel free to contact us for pricing and availability.

2N3053 Transistor CAD Models

2N3053 Transistor Pinout Details

Pin Number	Pin Name	Description
1	Emitter	The emitter releases charge carriers (electrons) and is usually connected to ground or the negative side of the circuit.
2	Base	The base controls the transistor’s operation; a small current here allows a larger current to flow between collector and emitter.
3	Collector	The collector receives charge carriers and connects to the load in amplification or switching circuits.

Alternatives & Equivalent Model

• 2N3053A

• 2N2219

• 2N2219A

• SL100

• 2N5210

• 2N5321

• 2N5327

•2N3725

• BC140

• BC141

• BC440

• BC441

• BC108

• NTE128

2N3053 Transistor Specifications

Parameter	Specification
Transistor Type	NPN Bipolar Junction Transistor
Application	General Purpose / Switching
Package / Case	TO-39
Mounting Type	Through Hole
Configuration	Single
Number of Pins	3
Polarity	NPN
Collector-Emitter Voltage (VCEO)	40 V
Collector-Base Voltage (VCBO)	60 V
Emitter-Base Voltage (VEBO)	5 V
Max Collector Current (IC)	700 mA
Power Dissipation (Max)	5 W
Collector-Emitter Saturation Voltage (VCE(sat))	1.7 V
DC Current Gain (hFE)	25 – 250 (Min: 50 @ specified conditions)
Transition Frequency (fT)	100 MHz
Gain Bandwidth Product	100 MHz
Max Operating Temperature	+150 °C
Min Operating Temperature	−65 °C
Number of Elements	1
Terminal Finish	Tin/Lead (Sn/Pb)
Terminal Form	Wire
Terminal Position	Bottom
Collector Connection	Case Connected
RoHS Status	RoHS Compliant
Lead Free	Yes
Part Status	Active

Electrical Characteristics

Symbol	Test Conditions	Min	Max	Units
I_CEV	VCE = 30 V, VEB = 1.5 V	—	250	nA
I_CEV	VCE = 60 V, VEB = 1.5 V	—	250	nA
I_EBO	VEB = 4.0 V	—	250	nA
B_VCBO	IC = 100 µA	60	—	V
B_VCER	IC = 100 mA, RBE = 10 Ω	50	—	V
B_VCEO	IC = 100 mA	40	—	V
B_VEBO	IE = 100 µA	5.0	—	V
V_CE(sat)	IC = 150 mA, IB = 15 mA	—	1.4	V
V_BE(sat)	IC = 150 mA, IB = 15 mA	—	1.7	V
V_BE(on)	VCE = 2.5 V, IC = 150 mA	—	1.7	V
h_FE	VCE = 2.5 V, IC = 150 mA	25	—	—
h_FE	VCE = 10 V, IC = 150 mA	50	250	—
f_T	VCE = 10 V, IC = 50 mA	100	—	MHz
C_ob	VCB = 10 V, IE = 0, f = 1 MHz	—	15	pF
C_ib	VBE = 0.5 V, IC = 0, f = 1 MHz	—	80	pF

2N3053 Transistor Features

General-Purpose NPN Transistor

The 2N3053 is a general-purpose NPN bipolar junction transistor designed for a wide range of amplification and switching tasks. Its NPN structure allows efficient current control, making it suitable for signal processing, driver stages, and control circuits in both analog and digital applications.

Moderate Voltage Handling

With a collector-emitter voltage rating of up to 40 V, the 2N3053 can operate safely in low-to-medium voltage circuits. This makes it reliable for use in regulated power supplies, signal amplifiers, and switching applications where stable voltage tolerance is required.

Medium Collector Current Capability

The transistor supports a maximum collector current of approximately 700 mA, enabling it to drive moderate loads. This feature allows the 2N3053 to be used in relay drivers, small motors, and current-controlled loads without excessive power stress.

High Transition Frequency

Featuring a transition frequency around 100 MHz, the 2N3053 performs well in high-speed and RF-related applications. This allows it to amplify fast-changing signals effectively, making it suitable for RF amplifiers and high-frequency signal stages.

Stable DC Current Gain

The 2N3053 provides a predictable DC current gain across its operating range, which helps maintain consistent circuit performance. This stability is important for amplifier designs where signal accuracy and repeatability are required.

Low Saturation Voltage

Its relatively low collector-emitter saturation voltage improves efficiency in switching applications. This reduces power loss and heat generation when the transistor operates in saturation mode.

TO-39 Metal Can Package

The TO-39 metal package offers good mechanical strength and effective heat dissipation. The metal case also enhances durability, making the transistor suitable for long-term and industrial use.

Wide Operating Temperature Range

Designed to operate from −65 °C to +150 °C, the 2N3053 can function reliably in harsh environments. This wide temperature range ensures dependable performance in both indoor and outdoor electronic systems.

2N3053 Transistor Working in Circuit

2N3053 as an Audio Power Amplifier

In the first circuit, the 2N3053 functions as a power output transistor in a low-voltage audio amplifier. The audio signal enters through a coupling capacitor, which blocks DC while allowing the AC audio signal to pass. Small-signal transistors provide initial voltage amplification, while the 2N3053 handles the higher current required to drive the speaker. Biasing diodes stabilize the operating point and reduce crossover distortion. The output capacitor isolates the speaker from DC voltage, ensuring only amplified audio reaches the load. In this configuration, the 2N3053 acts as a current amplifier, boosting signal power without significantly altering the waveform.

2N3053 as a Switching Regulator / Boost Converter

In the second diagram, the 2N3053 operates as a high-speed switching transistor within a boost-style power supply. The transistor rapidly switches on and off, allowing energy to be stored in the inductor and then released at a higher voltage level. Control transistors regulate the switching behavior, while the 2N3053 manages the main current flow through the inductor. A diode and output capacitor convert the pulsed energy into a smooth DC output voltage. Here, the 2N3053 works efficiently in saturation and cutoff regions, making it suitable for DC-DC conversion and power regulation.

2N3053 as a Series Voltage Regulator

In the third circuit, the 2N3053 is used as a series pass transistor in a linear voltage regulator. A Zener diode sets a fixed reference voltage at the base of the transistor. As the input voltage varies, the 2N3053 adjusts its conduction to maintain a stable output voltage at the emitter. The resistor network controls base current, while the output capacitor filters ripple and improves voltage stability. In this role, the 2N3053 operates in its active region, acting as a variable resistor that regulates output voltage while supplying sufficient load current.