Unveiling the IPB017N10N5LFATMA1 Infineon Transistor’s Power

sales@keepboomingtech.com

·April 3, 2025

·9 min read

Unveiling the IPB017N10N5LFATMA1 Infineon Transistor’s Power

The IPB017N10N5LF and IPB017N10N5LFATMA1 Infineon Transistor are robust N-MOSFETs designed for high-performance power electronics applications. These unipolar 100V, 180A transistors, with a power dissipation of 313W and housed in a D2PAK-7 package, deliver exceptional efficiency and reliability. Featuring a low resistance of just 1.7mΩ at 100A, they minimize energy loss, enhancing power conversion efficiency.

As part of the Discrete Semiconductor Products Transistors category, these transistors are widely utilized across various industries. They optimize DC-DC converters in telecom and networking equipment, ensure smooth motor control in industrial automation, and enhance battery management systems in electric vehicles. Additionally, they are ideal for solar inverters and other energy-efficient designs, making them indispensable in modern technological advancements.

Key Takeaways

The IPB017N10N5LFATMA1 transistor is a strong N-MOSFET. It works at 100V and 180A, perfect for tough tasks.
Its low resistance of 1.7mΩ cuts energy waste. This makes it great for power systems like DC-DC converters and motor controls.
The D2PAK-7 case helps handle heat well. It stays reliable in very hot or cold temperatures from -55°C to 150°C.
This transistor is flexible and used in many fields. It helps in cars, green energy, and communication systems by saving energy and boosting performance.
Engineers can use its features to make better designs. This saves energy and lowers costs in many uses.

Overview of the IPB017N10N5LFATMA1 Infineon Transistor

What is an N-MOSFET transistor?

An N-MOSFET transistor is a device that controls current flow. It uses an N-type channel to manage electricity. Voltage applied to the gate controls the current path. This lets it handle signals precisely. N-MOSFETs are used for switching and amplifying signals. By changing the gate voltage, it works in different modes. This makes it flexible for circuit designs. These features make N-MOSFETs important in modern electronics.

Features of the IPB017N10N5LFATMA1 model

The IPB017N10N5LFATMA1 Infineon Transistor has strong and advanced features. It is part of the OptiMOS™-5 series, known for being efficient and reliable. Key features include:

Feature	Specification
Type	N-channel, normal level
Avalanche Testing	Fully avalanche tested
Safe Operating Area	Wide safe operating area
Compliance	Lead-free; RoHS-compliant
On-resistance	Very low resistance
Applications	Great for hot-swap and e-fuse
Halogen-free	Meets IEC61249-2-21 standards
Qualification	JEDEC qualified
Continuous Drain Current (Id)	180A at 25℃
Drive Voltage	10V (Max and Min Rds On)
Power Dissipation	313W maximum
Operating Temperature	-55°C to 150°C
Packaging	Tape & Reel
Series	OptiMOS™-5
Moisture Sensitivity Level (MSL)	1 (Unlimited)
Terminal Position	Single terminal
Terminal Form	Gull wing

These features help the transistor perform well in tough tasks like motor control and battery systems.

Unipolar design and its advantages

The unipolar design of this transistor gives it many benefits. Unlike bipolar transistors, it uses one type of charge carrier. This makes it simpler to use. Key benefits include:

High input resistance saves energy.
Easier control circuits with isolated signals.
Better efficiency in power converters.
Strong current control using voltage.
Saves space with more logic ports on chips.

These benefits make this transistor a top choice for reliable and efficient applications.

Key Features of the IPB017N10N5LFATMA1 Infineon Transistor

Electrical specifications: 100V, 180A, 313W

The IPB017N10N5LFATMA1 Infineon Transistor has strong electrical abilities. It works with a maximum voltage of 100V and handles up to 180A of current. This makes it great for high-power uses. It can also manage 313W of power without overheating. Here's a simple summary:

Specification	Value
Maximum Voltage (V)	100V
Continuous Drain Current (A)	180A
Power Dissipation (W)	313W

These numbers show how well it works in tough conditions.

Low RDS(on) and its impact on efficiency

This transistor has very low RDS(on), which means less energy is wasted. Its advanced trench MOSFET design helps reduce power loss. This makes it perfect for telecom and battery systems. Here's a closer look:

Feature	Description
Low RDS(on)	Advanced on-state resistance for better performance
Wide Safe Operating Area (SOA)	Combines trench and planar MOSFET benefits
High Max. Pulse Current	Handles high current needs
Low Conduction Losses	Saves energy during use
Applications	Ideal for Telecom and Battery Systems

The low RDS(on) helps it work efficiently, saving energy in important tasks.

Thermal performance and D2PAK-7 packaging benefits

The transistor’s thermal performance is excellent. Its D2PAK-7 package helps remove heat quickly. This keeps it stable during heavy use. The package also makes it strong and reliable. It works well even in hot or tough conditions. This design makes it a good choice for industries like automation and energy systems.

With these features, the IPB017N10N5LFATMA1 Infineon Transistor performs well in many areas, from factories to energy-saving systems.

Uses of the IPB017N10N5LFATMA1 Transistor

Power supplies and DC-DC converters

The IPB017N10N5LFATMA1 transistor is key in power supplies. Its low resistance saves energy, making it efficient. It handles high currents, working well in telecom systems. With a 180A current capacity, it fits modern power needs. The D2PAK-7 package helps manage heat, keeping it reliable under heavy use.

Industrial automation and motor control

This transistor works great in motor control systems. It switches quickly, controlling BLDC motors smoothly. These motors are common in industrial machines. Its strong design supports high-frequency tasks, cutting energy waste. It stays reliable in tough environments, making it ideal for factories.

Electric vehicles and battery systems

The transistor is perfect for electric vehicles and batteries. It switches fast, improving energy use in converters. Its low resistance reduces heat, helping compact designs.

Key features and advantages include:

Feature	Advantage
Heat Resistance	Works well in different temperatures.
Long Life	Strong thermal design ensures durability in tough tasks.

Its quick switching boosts power management efficiency. Low resistance at high speeds improves control of big currents. These qualities make it essential for EVs, where saving energy and reliability matter most.

Synchronous rectification and solar inverters

Synchronous rectification helps power converters work more efficiently. It swaps old rectifier diodes with modern MOSFETs. This change cuts energy loss during use. The IPB017N10N5LFATMA1 Infineon Transistor, with low RDS(on) and high current capacity, fits this role well.

Power MOSFETs are great for synchronous rectification. They have low resistance and use voltage to operate. These traits make them efficient in low-voltage, high-current tasks. By reducing rectification losses, they save energy in power circuits. This is especially useful in server power supplies and telecom systems, where saving energy is important.

Solar inverters also gain from this transistor’s features. Solar inverters turn DC from panels into AC for homes or industries. The transistor handles high currents and manages heat well. This ensures steady performance in solar systems. Its D2PAK-7 package helps with heat control, making it reliable for outdoor use.

Below is a table showing why MOSFETs like the IPB017N10N5LFATMA1 are useful in these applications:

Aspect	Description
Efficiency Boost	Synchronous rectification improves efficiency and lowers power loss in converters.
Power MOSFET Traits	Low resistance makes them better than old rectifier diodes.
Voltage-Based Control	Voltage control helps in low-voltage, high-current tasks.
Loss Reduction	MOSFETs cut rectification losses, especially in low-voltage setups.

These features make the transistor vital for today’s energy systems. It improves energy use and reduces waste, helping renewable energy and industrial needs.

Benefits of the IPB017N10N5LFATMA1 in Real-World Scenarios

Better energy use in power systems

The IPB017N10N5LFATMA1 Infineon Transistor helps save energy in power systems. Its low RDS(on) reduces energy loss during operation. This is very useful for DC-DC converters and synchronous rectification. Saving energy also lowers costs for running these systems. The transistor handles high currents and voltages without overheating. This makes it great for tough tasks needing steady performance. Using this transistor helps industries save energy and money, creating more eco-friendly solutions.

Affordable and dependable design

This transistor is both affordable and long-lasting. Its strong D2PAK-7 package helps manage heat well. This reduces the need for extra cooling parts, cutting costs. It also makes circuit designs simpler. The transistor’s wide safe operating area ensures it works well under stress. It is fully tested to handle tough conditions. For example, in cars, it stays stable in different temperatures. This reduces repair costs over time. These features make it a smart and reliable choice for many industries.

Works well in many industries

This transistor is useful in many fields, like electronics and cars. Its fast switching helps microprocessors process data quickly. It also works efficiently in memory devices, handling data at high speeds. In communication systems, it improves energy use and response times. Below is a table showing its benefits in different areas:

Application Area	Key Benefits	Performance Metrics
Microprocessors	Fast switching for quick data processing	Lower power loss during transitions
Memory Devices	Efficient in digital systems	Handles data at high speeds
Communication Systems	Faster response times	Better energy use
Automotive Applications	Stays stable in different temperatures	Reliable and long-lasting under stress

This flexibility makes the IPB017N10N5LFATMA1 Infineon Transistor important for modern technology. It meets the needs of industries like electronics and renewable energy.

The IPB017N10N5LFATMA1 Infineon Transistor has amazing features. It has low RDS(on), handles high currents, and stays cool. These qualities make it great for DC-DC converters, motor control, and batteries. Its simple design and strong packaging keep it efficient and long-lasting.

MOSFETs have changed electronics by making them better and more efficient. This transistor shows these improvements by saving energy and working well. It is useful in industries like telecom and renewable energy.

Engineers can use this transistor to improve their projects. It is flexible and dependable, solving modern tech problems. Try it to make your designs even better today!

What makes the IPB017N10N5LFATMA1 transistor special?

The IPB017N10N5LFATMA1 is unique for its low RDS(on). It also handles high currents and manages heat well. These features make it great for DC-DC converters, motors, and batteries.

How does the D2PAK-7 package help performance?

The D2PAK-7 package helps remove heat quickly. This keeps the transistor stable during heavy use. It works well in industries needing reliable power systems.

Can this transistor work in extreme temperatures?

Yes, it works between -55°C and 150°C. This wide range makes it reliable in tough places like factories and cars.

Why is low RDS(on) important in electronics?

Low RDS(on) saves energy by reducing power loss. It also lowers heat and improves efficiency. This is useful for batteries and power systems.

Which industries use this transistor the most?

Industries like cars, solar energy, and telecom use it a lot. It helps electric cars, solar panels, and power supplies work better and save energy.