TIP122 Specifications, Features and Instructions | Heisener Electronics
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TIP122 Specifications, Features and Instructions

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Date de Parution: 2024-06-13, ON Semiconductor

TIP122 Introduction

The TIP122 is a NPN Darlington transistor, commonly used for high-power switching and amplification applications. It consists of two NPN transistors connected in a Darlington configuration, which means the current amplified by the first transistor is further amplified by the second one. This configuration provides a high current gain (typically 1000 or more), allowing the TIP122 to control large currents with a relatively small input current.

The operating principle of the TIP122 is based on the Darlington pair's ability to achieve a high current gain. When a small base current is applied to the TIP122, it turns on the first transistor, which amplifies the current and drives the second transistor. This results in a much larger current flowing from the collector to the emitter, allowing the TIP122 to switch or amplify loads up to 5A with a voltage rating of up to 100V.

TIP122 Pinout

TIP122 Features

- Gain around 1000, amplifying small base current to large collector current.

- Handles up to 100V collector-emitter voltage .

- Supports continuous collector current up to 5A.

- Composed of two NPN transistors for high efficiency.

- Built-in anti-parallel diode.

- Capable of dissipating up to 65W of power.

- Exhibits a low collector-emitter saturation voltage of 2V at 3A.

TIP122 Applications

Motor Drivers: Used to control and drive motors in various applications.

Relay Drivers: Ideal for switching relays in control circuits.

Power Regulators: Employed in power regulation circuits.

Amplifiers: Used in audio and signal amplification circuits.

Lighting Control: Suitable for dimming and controlling high-power lighting systems.

Industrial Automation: Applied in industrial control systems for driving high-power actuators and solenoids.

Battery Chargers: Used in battery charging circuits to control charging currents efficiently.

Solar Power Systems: Implemented in solar inverters and controllers.

Heater Control: Used to regulate current in heating elements in temperature control systems.

TIP122 CAD Model

Symbol

Footprint

3D Model

TIP122 Circuit

TIP122 Specifications

Parameter Value
Collector-Emitter Voltage 100 V
Collector-Base Voltage 100 V
Emitter-Base Voltage 5 V
Collector Current 5 A
Base Current 120 mA
Power Dissipation 65 W
DC Current Gain 1000 (min)
Collector-Emitter Saturation Voltage 2 V @ 3 A
Operating Junction Temperature -65 to +150 °C
Thermal Resistance Junction to Case 1.67 °C/W
Thermal Resistance Junction to Ambient 62.5 °C/W
Transition Frequency 3 MHz
Package TO-220

TIP122 Package

The TIP122 transistor is housed in a TO-220 package, which is a widely used and durable through-hole package. This package features three leads—Base, Collector, and Emitter—spaced with a standard 2.54 mm pitch, making it easy to integrate into various circuit boards. The TO-220 package dimensions are 10.16 mm in width, 15.75 mm in length, and 4.83 mm in height, with a lead length of 14.5 mm. It is designed to be mounted on a heat sink, significantly improving thermal management. It boasts a thermal resistance of 1.67 °C/W from junction to case. 

TIP122 Manufacturer

The TIP122 transistor is produced by STMicroelectronics, which is one of the leading semiconductor manufacturers. The company designs, develops, and manufactures a wide range of semiconductor products, including microcontrollers, sensors, power management devices, and transistors, etc.

How to Use TIP122?

Identify the Pin Configuration: The TIP122 has three pins: Base (B), Collector (C), and Emitter (E). The pinout is typically (left to right): Base, Collector, Emitter when viewed from the front with the metal tab at the back.

Connect the Base Resistor: To control the TIP122, a current-limiting resistor is connected to the Base pin. Calculate the resistor value based on the desired base current and input voltage .

Connect the Collector Load: The load (e.g., a motor, relay, or light) is connected between the Collector pin and the positive supply voltage. Ensure the load current does not exceed the maximum collector current rating of 5A.

Connect the Emitter to Ground: The Emitter pin is connected directly to the ground of the circuit.

Apply the Input Signal: Provide the control signal to the Base pin through the base resistor. This signal determines when the TIP122 will turn on (conduct) or off (non-conductive).

Ensure Proper Heat Dissipation: Attach a heat sink to the TIP122 if the load current is high to manage heat dissipation effectively. 

TIP122 Equivalents

Transistor Type Voltage Rating (V) Current Rating (A) Configuration
TIP120 NPN Darlington 60 5 Darlington
BD679 NPN Darlington 80 4 Darlington
TIP41C NPN Power 100 6 Standard
BD911 NPN Power 100 15 Standard
TIP142 NPN Darlington 100 10 Darlington
2N6284 NPN Darlington 100 10 Darlington

FAQs

What is the difference between TIP122 and TIP120?

The main difference is their voltage ratings; the TIP122 can handle up to 100V, whereas the TIP120 can handle up to 60V. Both have similar current ratings and are Darlington transistors.

Is the TIP122 suitable for battery charger circuits?

Yes, the TIP122 is suitable for battery charger circuits due to its ability to handle high currents and its robust thermal management capabilities.

Conclusion

The TIP122 is a versatile and powerful NPN Darlington transistor, which has high current gain, robust voltage and current ratings. The TO-220 package allows for effective heat dissipation, especially when paired with a heat sink, so it can stably operate even under high loads. By understanding its specifications and proper usage, users can effectively use TIP122 to achieve more efficient and reliable circuit functions.


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