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Home > Products > Discrete Semiconductor Products > Transistors - IGBTs - Modules > PS25-24-15
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PS25-24-15

Manufacturer Part Number:
PS25-24-15
Manufacturer / Brand
LAMBDA
Part of Description:
IGBT Modules
Datasheets:
Lead Free Status / RoHS Status:
RoHS Compliant
Stock Condition:
New original, 5390 pcs Stock Available.
ECAD Model:
Ship From:
Hong Kong
Shipment Way:
DHL/Fedex/TNT/UPS

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Part Number PS25-24-15
Manufacturer / Brand LAMBDA
Stock Quantity 5390 pcs Stock
Category Discrete Semiconductor Products > Transistors - IGBTs - Modules
Description IGBT Modules
Lead Free Status / RoHS Status: RoHS Compliant
RFQ PS25-24-15 Datasheets PS25-24-15 Details PDF
PS25-24-15 Details PDF for FR.pdf
PS25-24-15 Details PDF for KR.pdf
PS25-24-15 Details PDF for IT.pdf
PS25-24-15 Details PDF for ES.pdf
PS25-24-15 Details PDF for DE.pdf
Condition New Original Stock
Warranty 100% Perfect Functions
Lead Time 2-3days after payment.
Payment Credit Card / PayPal / Telegraphic Transfer (T/T) / Western Union
Shipping by DHL / Fedex / UPS / TNT
Port HongKong
RFQ Email Info@IC-Components.com

Packaging & ESD

Industry-standard static shielding packaging is used for electronic components.Anti-static, light-transparent materials allow easy identification of ICs and PCB assemblies.
The packaging structure provides electrostatic protection based on Faraday cage principles.This helps protect sensitive components from static discharge during handling and transportation.


All products are packed in ESD-safe anti-static packaging. Outer packaging labels include part number, brand, and quantity for clear identification. Goods are inspected prior to shipment to ensure proper condition and authenticity.

ESD protection is maintained throughout packing, handling, and global transportation. Secure packaging provides reliable sealing and resistance during transit. Additional cushioning materials are applied when required to protect sensitive components.

QC(Part Testing by IC Components)Quality Warranty

We can offer worldwide express delivery service, such as DHLor FedEx or TNT or UPS or other forwarder for shipment.

Global Shipment by DHL/FedEx/TNT/UPS

Shipping Fees reference DHL/FedEx
1). You can offer your express delivery account for shipment, ifyou haven’t any express account for shipment, we can offer our account inadvance.
2). Use our account for shipment, Shipment charges(Reference DHL/FedEx, Different Countries has different price.)
Shipment charges: (Reference DHL and FedEX)
Weight(KG): 0.00kg-1.00kg Price(USD$) : USD$60.00
Weight(KG): 1.00kg-2.00kg Price(USD$) : USD$80.00
* The price of cost is reference with DHL/FedEx. The detail charges, please contact us. Different country the express charges are different.



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PS25-24-15 Product Details:

The LAMBDA PS25-24-15 is a high-performance IGBT (Insulated Gate Bipolar Transistor) module designed for robust power electronics applications. As a lead-free and RoHS-compliant discrete semiconductor device, this transistor module offers advanced electrical switching capabilities in compact and efficient packaging.

IGBT modules like the PS25-24-15 are crucial components in power conversion and control systems, providing superior performance in high-power switching applications. The module's design addresses critical engineering challenges related to power management, thermal dissipation, and electrical efficiency across various industrial and electrical engineering domains.

This LAMBDA transistor module is engineered to deliver reliable power switching performance, making it ideal for applications such as motor drives, industrial inverters, uninterruptible power supplies, renewable energy systems, and advanced electrical control mechanisms. Its robust construction ensures stable operation under demanding electrical and thermal conditions.

While specific detailed electrical parameters are not provided in the given specifications, IGBT modules in this category typically offer excellent voltage handling, low switching losses, and high current capacity. The lead-free and RoHS-compliant construction ensures environmental responsibility and compliance with modern manufacturing standards.

Potential equivalent or alternative models might include similar IGBT modules from manufacturers like Infineon, ON Semiconductor, or Mitsubishi Electric. However, a precise cross-reference would require additional technical specification verification.

The PS25-24-15's modular IGBT design makes it suitable for complex power electronics systems requiring efficient, reliable semiconductor switching components across multiple industrial and technological sectors.

PS25-24-15 Key Technical Attributes

Manufacturer Part Number: PS25-24-15

Manufacturer: LAMBDA

Main Category: Discrete Semiconductor Products

PS25-24-15 Packing Size

Type: IGBT Modules

Material: Lead-free / RoHS Compliant

Size: Compact module design

Pin Configuration: Standard configuration for ease of installation

Thermal Characteristics: Optimized for heat dissipation

Electrical Properties: High efficiency and reliability

PS25-24-15 Application

The PS25-24-15 modules are designed for use in a variety of applications including power management, renewable energy inverters, electric vehicles, and industrial motor drives.

PS25-24-15 Features

The LAMBDA PS25-24-15 transistor module features advanced IGBT technology for high efficiency and power handling. It incorporates robust module construction for enhanced mechanical strength and reliability. The device ensures low on-state voltage to minimize power loss and provides high switching frequencies to maximize system performance. Additionally, it includes built-in protection features such as overcurrent and overtemperature protections, enhancing overall device durability and operational safety.

PS25-24-15 Quality and Safety Features

The PS25-24-15 transistor module is constructed with high-quality materials that are lead-free and RoHS compliant, ensuring environmental safety and user health. It is tested rigorously to meet stringent quality standards, providing high reliability and stability in various operating conditions.

PS25-24-15 Compatibility

This module is designed to be compatible with a wide range of standard industrial assemblies, simplifying integration into existing systems without requiring additional components or configurations.

PS25-24-15 Datasheet PDF

Our website offers the most authoritative and detailed datasheet for the PS25-24-15. We highly recommend customers download the datasheet from the current page to gain comprehensive insights into the product specifications and installation guidelines.

Quality Distributor

IC-Components is a premium distributor of LAMBDA products, including the PS25-24-15 IGBT modules. As a trusted industry leader, we provide high-quality components and exceptional customer service. We suggest customers obtain a personalized quote directly on our website to benefit from our competitive pricing and expert support.

Frequently Asked Questions

What are the key considerations for power supply decoupling when integrating the LAMBDA PS25-24-15 IGBT module into a high-frequency switching application to mitigate parasitic inductance and voltage spikes?
For the LAMBDA PS25-24-15 IGBT module, effective power supply decoupling is critical. Employ a multi-stage approach: place low-inductance ceramic capacitors (e.g., 100nF to 1µF) as close as possible to the DC link terminals of the PS25-24-15 to absorb high-frequency noise. Supplement these with bulk electrolytic or film capacitors (e.g., 100µF to 1000µF) further away to handle lower-frequency ripple. Minimize trace lengths and use wide copper planes for the DC link to reduce parasitic inductance. Consider adding small ferrite beads in series with the supply if high-frequency transients persist, though this adds impedance.
Under what operating conditions and thermal management strategies can the LAMBDA PS25-24-15 IGBT module reliably achieve its rated continuous current of 25A in a continuous industrial environment, and what are the potential failure modes if these limits are exceeded?
To reliably achieve the 25A continuous current rating of the LAMBDA PS25-24-15 IGBT module in an industrial environment, a robust thermal management system is paramount. Ensure adequate heatsink capacity with sufficient thermal interface material (TIM) to maintain junction temperatures below the manufacturer's specified maximum (typically 150°C or 175°C, refer to the specific datasheet). Forced air cooling or liquid cooling may be necessary depending on the ambient temperature and duty cycle. Operating continuously above the rated current or exceeding thermal limits can lead to premature degradation of the IGBT chip, increased leakage currents, and ultimately, catastrophic failure due to thermal runaway.
How does the switching speed and associated switching losses of the LAMBDA PS25-24-15 compare to other similar 24-pin IGBT modules, and what are the implications for gate driver design and heatsink requirements in a PWM application?
The switching speed and associated losses of the LAMBDA PS25-24-15 are characteristic of IGBT technology in its class, generally offering a good balance between on-state voltage drop and switching performance. Compared to older Bipolar Transistor modules, it will be significantly faster with lower switching losses. When comparing to other IGBT modules with similar current and voltage ratings, slight differences in internal parasitic elements and doping profiles can lead to variations in switching times (rise and fall times). This impacts gate driver selection: a faster module may require a gate driver capable of sourcing and sinking higher peak currents to achieve optimal switching. Higher switching frequencies and losses will necessitate a more substantial heatsink for the PS25-24-15 to maintain junction temperatures within safe operating limits.
When designing a motor drive, what are the critical considerations for gate drive current and voltage levels when using the LAMBDA PS25-24-15 IGBT module to ensure optimal switching performance and prevent potential damage?
For optimal switching performance and to prevent damage to the LAMBDA PS25-24-15 IGBT module in a motor drive application, the gate drive circuit must provide sufficient voltage (typically +15V for turn-on and -5V to 0V for turn-off, refer to datasheet recommendations) and current. Insufficient turn-on voltage can lead to slow turn-on and increased conduction losses, while inadequate turn-off voltage or current can result in extended turn-off times and potentially catastrophic shoot-through if the complementary switch turns on before the PS25-24-15 is fully off. The gate driver must be capable of sourcing and sinking the peak gate current required for fast switching without exceeding its own voltage or current limits.
In a scenario where a previous generation of an IGBT module, such as a Fuji Electric FG75C06, is being considered for replacement with the LAMBDA PS25-24-15, what are the primary electrical, mechanical, and thermal differences that an engineer must evaluate to ensure a successful and safe design migration?
Migrating from a Fuji Electric FG75C06 to the LAMBDA PS25-24-15 involves careful evaluation. Key differences to assess include: **Electrical:** Voltage and current ratings (ensure the PS25-24-15 meets or exceeds requirements), on-state voltage drop (Vce(sat)), switching characteristics (rise/fall times, Eon/Eoff), gate charge (Qg), and internal parasitic capacitances. These will affect your gate driver design and the PWM switching losses of the PS25-24-15. **Mechanical:** Pinout compatibility and physical dimensions are crucial for board layout and heatsink mounting. **Thermal:** The thermal resistance (Rthjc, Rthcs) of the LAMBDA PS25-24-15 will dictate the required heatsink design and cooling strategy compared to the FG75C06. Failure to account for these differences can lead to performance degradation or component failure.
What are the implications of the "Lead free / RoHS Compliant" status for the LAMBDA PS25-24-15 IGBT module in terms of long-term reliability and soldering processes for industrial equipment?
The "Lead free / RoHS Compliant" designation for the LAMBDA PS25-24-15 IGBT module indicates that it is manufactured without lead-based solder materials. This generally aligns with modern environmental regulations and is crucial for industrial equipment intended for global markets. For soldering processes, it typically requires higher soldering temperatures compared to tin-lead solders, which necessitates careful PCB design and process control to avoid thermal stress on the PS25-24-15 and surrounding components. Long-term reliability is generally considered good, as lead-free solders have improved fatigue resistance, but it is essential to follow recommended soldering profiles to ensure optimal joint integrity.
For a high-power inverter application requiring high-frequency switching (e.g., >20 kHz), what is the maximum allowable junction temperature for the LAMBDA PS25-24-15 IGBT module to maintain acceptable reliability and prevent premature device aging, and how does this impact the required thermal resistance of the heatsink?
To maintain acceptable reliability and prevent premature aging of the LAMBDA PS25-24-15 IGBT module in high-frequency switching applications (above 20 kHz), it is critical to keep the junction temperature well below the absolute maximum rating. A common practice is to operate at or below 150°C. Higher operating temperatures accelerate degradation mechanisms within the semiconductor device. The required thermal resistance of the heatsink is directly dependent on this operating junction temperature limit, the maximum power dissipation of the PS25-24-15 (which is a function of switching losses and conduction losses at the operating current and voltage), and the maximum ambient temperature. A lower allowed junction temperature necessitates a heatsink with a lower thermal resistance (e.g., lower °C/W).
When interfacing the LAMBDA PS25-24-15 IGBT module with a microcontroller that operates at a different logic voltage level (e.g., 3.3V), what is the recommended method to ensure proper gate signal integrity and prevent damage to both the microcontroller and the IGBT module?
Interfacing the LAMBDA PS25-24-15 IGBT module with a microcontroller operating at 3.3V requires careful level shifting and isolation. Direct connection is not possible due to the voltage requirements of the IGBT gate. The recommended approach is to use a dedicated IGBT gate driver IC. These drivers provide the necessary voltage levels (+15V/-5V typical) for the gate of the PS25-24-15, handle the high peak currents required for fast switching, and often incorporate isolation (optocoupler or transformer-based) for protection and to manage ground loop issues. The microcontroller's 3.3V output can then control the input of the gate driver IC.
In a robust industrial power supply design that demands long-term operational stability, what are the key parameters of the LAMBDA PS25-24-15 IGBT module that need to be monitored or considered during the component selection phase to mitigate risks of parameter drift or early failure under sustained stress?
For long-term stability and to mitigate risks of parameter drift in the LAMBDA PS25-24-15 IGBT module, engineers should focus on parameters that are known to be sensitive to thermal cycling and high electrical stress. These include: **Vce(sat) (Collector-Emitter Saturation Voltage):** An increase in Vce(sat) indicates potential degradation of the IGBT. **On-state and off-state switching times:** Changes can impact efficiency and thermal management. **Leakage currents:** An increase in leakage currents (especially collector-emitter leakage) suggests internal damage or degradation. Selecting the PS25-24-15 with conservative derating for current, voltage, and junction temperature is crucial. Understanding the datasheet's Safe Operating Area (SOA) curves and ensuring operation well within them under all expected conditions is paramount for longevity.
For a product intended for use in an automotive environment where transient voltage spikes are common, what specific protection measures should be implemented when using the LAMBDA PS25-24-15 IGBT module to safeguard it against these events and ensure system reliability?
Protecting the LAMBDA PS25-24-15 IGBT module in an automotive environment from transient voltage spikes requires a multi-layered approach. This includes: **Snubber circuits:** Employing RC or RCD snubber circuits across the collector-emitter terminals of the PS25-24-15 can absorb energy from inductive voltage swings. **Fast-acting fuses:** Essential for overcurrent protection. **Transient Voltage Suppressors (TVS diodes):** Placed strategically to clamp voltage spikes to safe levels, particularly on the DC bus. **Adequate DC bus capacitance:** Helps to buffer against sudden voltage drops or rises. **Careful PCB layout:** Minimizing parasitic inductance in high-current loops is critical for reducing the magnitude of voltage transients generated during switching. The gate drive circuit should also have appropriate clamping mechanisms.

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