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TDK-Lambda's state-of-the-art AC-DC power supplies and DC-DC converters are engineered for the highest reliability and maximum efficiency at the smallest possible size.
Our power products seamlessly integrate into a wide range of industrial, medical and scientific applications, empowering your designs to reach new levels of performance and innovation. Choose from the applications listed below to see why our embedded power products make the best choice and to find the right product for your project.
Designing a power system for electronic medical systems involves overcoming numerous challenges to ensure reliability, safety and regulatory compliance. These challenges include providing stable and clean power to sensitive medical devices to prevent malfunctions or errors that could jeopardize patient safety. Additionally, the power system must be designed to withstand potential electrical noise and interference in healthcare environments while meeting stringent regulatory requirements. Overcoming these challenges requires careful design, testing and collaboration among engineers and the power systems' manufacturers.
Innovative
High-end equipment in the Medical market is known for long product lifecycles (up to 20+ years). Optimum performance throughout the lifecycle is supported by high quality E-Caps and conservative electrical and thermal derating, ensuring reduced field failures.
Trusted
We take safety seriously. All TDK-Lambda medical power supplies are approved to the latest IEC/EN/UL60601-1 medical standards, ensuring compliance for the customer's final application.
Reliable
All design validation and safety pre-approvals have been performed by in house engineers at our state of the art EMC and DVT centres and backed up by independent regulatory approvals.
Imaging
Clinical Care
Patient Monitoring
Surgical
Test and Instrumentation
Alternatively:
Designing a power system for industrial electronic systems presents challenges of reliability, scalability and compatibility with diverse equipment. These systems require stable power sources to ensure continuous operation in harsh industrial environments. Challenges include managing high-power demands, voltage fluctuations and electromagnetic interference. Additionally, addressing the needs of various industrial applications, from manufacturing to process control, adds complexity. Furthermore, ensuring compliance with industry standards and safety regulations, including IEC 61000 and UL 508, is essential. Overcoming these challenges demands robust power distribution designs, advanced monitoring technologies and collaboration among industrial equipment manufacturers, system integrators and power system manufacturers.
Innovative
We understand that there is never a one-size-fits-all solution. Our power experts are here to listen and discuss how best to realise your requirements, whether it is a modification to a standard product or a full custom design to your specification.
Trusted
Our power experts are on hand to assist you with selecting and integrating our power supplies into your system.
Reliable
Our technology is designed for superior thermal management, reliability, EMI/EMC specifications and high power density and is supported by industry leading warranties.
Factory Automation
Processing Power
Industrial printing, CNC
Alternatively:
Test and measurement equipment demands accuracy. This precision starts with the power architecture. The power supply must provide reliable and stable voltage rails to the system. However it is essential that electro-magnetic noise, emitted by all electronic equipment, including power supplies, should not interfere with sensitive measuring and analysis equipment. Compact size (including height) and quiet operation are often required to simplify integration of the power supply into the system and minimise disruption.
Innovative
EMC performance of the power supply directly affects the safety and reliability of the system it is being designed into. Therefore our engineering teams are equipped with a state of the art EMC and validation labs. This ensures we do not just meet the regulated EMI performance, we better it.
Trusted
We take safety seriously. Our products have been certified to global safety standards including IEC 61010 and IEC 62368 certification.
Reliable
Our design engineers work in close collaboration with our production and quality groups to ensure our power supplies are optimised for manufacture ensuring long-term reliability.
Field Instruments
ATE (Industrial, Automotive & Semi)
Bio & Life Science
Alternatively:
Designing a power system for factory automation or process control systems presents challenges of reliability, scalability and compatibility with diverse equipment. These systems require stable power sources to ensure continuous operation in harsh industrial environments. Challenges include managing high-power demands, voltage fluctuations and electromagnetic interference. Additionally, addressing the needs of various industrial applications, from manufacturing to process control, adds complexity. Furthermore, ensuring compliance with industry standards and safety regulations, such as IEC 61000 and UL 508, is essential. Overcoming these challenges demands robust power distribution designs, advanced monitoring technologies and collaboration among industrial equipment manufacturers, system integrators and power system manufacturers.
Innovative
TDK-Lambda are committed to excellence not only in product quality and reliability, but in every aspect of our business. This ensures that innovative solutions meet rigorous standards for performance and durability.
Trusted
Every component has been individually selected and evaluated by a specialist TDK-Lambda components team. We know that trust is built one component at a time.
Reliable
All design validation and safety pre-approvals have been performed by in house engineers at our state of the art EMC and DVT centres and backed up by independent regulatory approvals.
Transportation & Storage systems
Automated Assembly Machines
Robotics
Laser/E-Beam Processing
Alternatively:
Designing a power system to be used within a renewable electronic systems involves challenges related to efficiency, reliability, and integration with fluctuating energy sources. These systems must efficiently harness energy from sources like solar and wind while ensuring stable power output. Challenges include managing variability in energy generation, optimizing energy storage solutions, and integrating renewable energy systems with existing grids. Additionally, addressing scalability, cost-effectiveness, and environmental impact is crucial. Furthermore, meeting regulatory requirements and grid standards while ensuring compatibility with various renewable energy technologies adds complexity. Overcoming these challenges demands collaboration among power system architects and power system manufacturers to drive the adoption of renewable energy electronic systems and contribute to a sustainable energy future.
Innovative
TDK-Lambda integrates sustainability principles into our innovation processes, striving to develop environmentally friendly products and manufacturing practices that minimize the impact on the planet.
Trusted
TDK-Lambda upholds the highest ethical standards in our business dealings, demonstrating honesty, fairness, and accountability in every interaction.
Reliable
TDK-Lambda ensures that every product meets stringent quality standards through rigorous testing, inspection, and adherence to industry best practices.
Wind
PV
Tidal
Hydroelectric
Biomass
Hydrogen
Alternatively:
Designing a power system for electronic semiconductor fabrication systems entails overcoming several challenges to ensure precision, reliability and safety. These systems demand stable and clean power to maintain consistent manufacturing processes, minimizing defects and maximising yield. Challenges include managing high-power demands and fluctuations to prevent equipment damage and production delays. Ensuring compatibility with sensitive semiconductor manufacturing equipment and addressing the stringent cleanliness requirements of cleanroom environments is crucial. Additionally, power system designs must incorporate redundancy and fault tolerance to minimize downtime and prevent costly interruptions in production. Overcoming these challenges requires sophisticated power management solutions, precise voltage regulation and rigorous testing to meet the exacting standards of semiconductor fabrication processes.
Innovative
Innovation starts with collaboration. We encourage our sales, technical support and engineering teams not only to work to together but to ensure our customers’ needs are at the heart of every development.
Trusted
Our expert FAE teams are on hand to support and guide you throughout your design-in process.
Reliable
TDK-Lambda ensures that every product meets stringent quality standards through rigorous testing, inspection, and adherence to industry best practices.
Production Equipment
Test System
Alternatively:
Designing a power system for commercial off-the-shelf (COTS) electronic systems in defence applications presents challenges of reliability, compatibility and customisation. These systems require power solutions that can meet the unique demands of military environments while leveraging commercially available components. Challenges include ensuring ruggedness and durability to withstand harsh operating conditions while maintaining interoperability with existing military equipment. Additionally, addressing security concerns and ensuring compliance with military standards and specifications is crucial. Furthermore, customizing COTS power solutions to meet specific military requirements without sacrificing performance or reliability adds complexity. Overcoming these challenges demands close collaboration between defence contractors and COTS vendors to develop tailored power solutions that enhance the capabilities and resilience of defence COTS electronic systems.
Innovative
If an off the shelf solution is not an option, no problem are Power+ team can advise you on bespoke design service including full customs.
Trusted
Our direct sales teams and distribution partners are here to listen, understand, and address questions promptly and effectively.
Reliable
Our development process requires products to meet or exceed stringent internal design guidelines based on our Japanese quality methodology refined over 70 years of power experience.
Detection: radar, sonar
Radio Communication
Aerospace test systems
Alternatively:
Designing a power system for electronic robotics systems presents challenges in ensuring efficiency, agility, and reliability. These systems require power sources that can deliver high currents for motor operation while maintaining stability for delicate electronic components. Challenges include managing dynamic power demands during movement and manipulation tasks to prevent voltage drops or surges. Additionally, optimizing power distribution to various subsystems while minimizing weight and space constraints is crucial for mobile robots. Furthermore, integrating power management features such as energy recovery and regenerative braking adds complexity. Overcoming these challenges demands advanced power systems to ensure optimal performance and longevity in diverse robotic applications.
Innovative
We encourage every aspect of our business to think outside the box, explore new ideas, and approach challenges with inventive solutions.
Trusted
No company can be successful without building strong, collaborative relationships with suppliers, distributors, and our customers, based on mutual respect, transparency and a shared commitment to success.
Reliable
All design validation and safety pre-approvals have been performed by in house engineers at our state of the art EMC and DVT centres and backed up by independent regulatory approvals.
Industrial
Surgical
AGV
AMR
Alternatively:
Designing a power system for broadcast, communication and professional audio electronic systems requires addressing challenges to ensure reliability, scalability and compatibility. Challenges include managing power quality to minimise electromagnetic interference and ensure signal integrity. Additionally, designing power systems that can accommodate the diverse needs of various communication technologies, such as satellite, wireless and fibre optics, adds complexity. Furthermore, addressing audible noise, energy efficiency and sustainability concerns while meeting regulatory standards is crucial. Overcoming these challenges demands comprehensive power system design, including redundancy and fault tolerance mechanisms, to ensure seamless operation and reliability in the fast-paced and evolving landscape of broadcast and communication technologies.
Innovative
TDK-Lambda as one of the leading global power supply manufacturers is striving to be at the forefront of technological innovation in electronic manufacturing, continuously investing in research and development to drive breakthroughs in products and processes.
Trusted
Building strong, collaborative relationships with suppliers, distributors, and other stakeholders based on mutual respect, transparency, and a shared commitment to success.
Reliable
TDK-Lambda: 70 years of expertise - we are just getting started.
Broadcast
Communications
Emergency Services
Professional Studio Equipment
Stadium and concert venues
Alternatively:
Designing a power system for LED lighting or signage electronic systems involves challenges related to efficiency, reliability and compatibility. These systems require power sources that can efficiently convert electricity to light while ensuring consistent brightness and colour accuracy. Challenges include managing thermal issues to prevent overheating and ensuring compatibility with dimming controls and smart lighting features. Additionally, addressing power quality concerns, such as flicker and harmonics, is crucial for maintaining performance and user comfort. Furthermore, meeting regulatory standards for energy efficiency and safety adds complexity. Overcoming these challenges demands innovative power supply designs, thermal management solutions, to ensure optimal performance and reliability in LED lighting and signage applications.
Innovative
Innovation starts with collaboration. We encourage our sales, technical support and engineering teams not only to work to together but to ensure our customers’ needs are at the heart of every development.
Trusted
Our commitment to quality and support ensures every one of our products exceeds the highest standards of quality and reliability.
Reliable
TDK-Lambda adheres to industry regulations, standards, and certifications ensuring product safety, performance, reliability and legal compliance.
Surgical lighting
Architectural
Stadium and concert venues
Signage
Alternatively:
Designing a power system for railway electronic systems involves overcoming challenges to ensure safety, reliability and efficiency. These systems must withstand harsh operating conditions, including vibrations, temperature extremes, and electrical noise from railway infrastructure. Challenges include providing stable power to sensitive onboard electronics while ensuring compatibility with diverse railway standards and voltages. Additionally, meeting stringent safety regulations and standards, such as EN 50155, requires robust design and testing procedures. Overcoming these challenges demands advanced power electronics, fault-tolerant architectures and collaboration among designers and power system manufacturers to ensure the seamless operation of railway electronic systems.
Innovative
We understand that there is never a one-size-fits-all solution. Our power experts are here to listen and discuss how best to realise your requirements, whether it is a modification to a standard product or a full custom design to your specification.
Trusted
Every component has been individually selected and evaluated by a specialist TDK-Lambda components team. We know that trust is built one component at a time.
Reliable
TDK-Lambda: 70 years of expertise - we are just getting started.
Trackside Systems
Signalling
Signage
Rolling stock internal Aux converters
Alternatively:
Designing a power system for harsh enviroments presents challenges related to ruggedness, reliability and performance in demanding operating conditions. These systems must endure extreme temperatures, vibrations and shock loads while delivering stable power to onboard electronics. Overcoming these challenges demands robust design methodologies and close collaboration with power system suppliers.
Innovative
The world never stops changing and neither do our customer requirements. We embrace technological advancements, and respond quickly to opportunities with innovative solutions.
Trusted
Our commitment to quality and support ensures every one of our products exceeds the highest standards of quality and reliability.
Reliable
Our reliability is built one component at a time.
Agriculture Equipment
Petro/Chemical industry
Marine industry
COTS
Alternatively:
Designing a power system for home medical electronic systems presents challenges centred on reliability, safety and user-friendliness. Challenges include providing compact, energy-efficient power solutions that accommodate various medical devices while ensuring compatibility with home electrical systems. Additionally, ensuring compliance with medical safety standards and regulations, such as IEC 60601, is essential to safeguard patient well-being. Overcoming these challenges requires innovative power management solutions, user-centric design and collaboration between device manufacturers and power systems providers to facilitate safe and effective home medical care.
Innovative
High-end equipment in the Medical market is known for long product lifecycles (up to 20+ years). Optimum performance throughout the lifecycle is supported by high quality E-Caps and conservative electrical and thermal derating, ensuring reduced field failures.
Trusted
We take safety seriously. All TDK-Lambda medical power supplies are approved to the latest IEC/EN/UL60601-1 medical standards, ensuring compliance for the customer's final application.
Reliable
All design validation and safety pre-approvals have been performed by in house engineers at our state of the art EMC and DVT centres and backed up by independent regulatory approvals.
Clinical Care
Patient Monitoring
Alternatively:
Designing a power system for electronic medical systems involves overcoming numerous challenges to ensure reliability, safety and regulatory compliance. These challenges include providing stable and clean power to sensitive medical devices to prevent malfunctions or errors that could jeopardize patient safety. Additionally, the power system must be designed to withstand potential electrical noise and interference in healthcare environments while meeting stringent regulatory requirements. Overcoming these challenges requires careful design, testing and collaboration among engineers and the power systems' manufacturers.
Innovative
High-end equipment in the Medical market is known for long product lifecycles (up to 20+ years). Optimum performance throughout the lifecycle is supported by high quality E-Caps and conservative electrical and thermal derating, ensuring reduced field failures.
Trusted
We take safety seriously. All TDK-Lambda medical power supplies are approved to the latest IEC/EN/UL60601-1 medical standards, ensuring compliance for the customer's final application.
Reliable
All design validation and safety pre-approvals have been performed by in house engineers at our state of the art EMC and DVT centres and backed up by independent regulatory approvals.
Imaging
Clinical Care
Patient Monitoring
Surgical
Test and Instrumentation
Alternatively:
Designing a power system for industrial electronic systems presents challenges of reliability, scalability and compatibility with diverse equipment. These systems require stable power sources to ensure continuous operation in harsh industrial environments. Challenges include managing high-power demands, voltage fluctuations and electromagnetic interference. Additionally, addressing the needs of various industrial applications, from manufacturing to process control, adds complexity. Furthermore, ensuring compliance with industry standards and safety regulations, including IEC 61000 and UL 508, is essential. Overcoming these challenges demands robust power distribution designs, advanced monitoring technologies and collaboration among industrial equipment manufacturers, system integrators and power system manufacturers.
Innovative
We understand that there is never a one-size-fits-all solution. Our power experts are here to listen and discuss how best to realise your requirements, whether it is a modification to a standard product or a full custom design to your specification.
Trusted
Our power experts are on hand to assist you with selecting and integrating our power supplies into your system.
Reliable
Our technology is designed for superior thermal management, reliability, EMI/EMC specifications and high power density and is supported by industry leading warranties.
Factory Automation
Processing Power
Industrial printing, CNC
Alternatively:
Test and measurement equipment demands accuracy. This precision starts with the power architecture. The power supply must provide reliable and stable voltage rails to the system. However it is essential that electro-magnetic noise, emitted by all electronic equipment, including power supplies, should not interfere with sensitive measuring and analysis equipment. Compact size (including height) and quiet operation are often required to simplify integration of the power supply into the system and minimise disruption.
Innovative
EMC performance of the power supply directly affects the safety and reliability of the system it is being designed into. Therefore our engineering teams are equipped with a state of the art EMC and validation labs. This ensures we do not just meet the regulated EMI performance, we better it.
Trusted
We take safety seriously. Our products have been certified to global safety standards including IEC 61010 and IEC 62368 certification.
Reliable
Our design engineers work in close collaboration with our production and quality groups to ensure our power supplies are optimised for manufacture ensuring long-term reliability.
Field Instruments
ATE (Industrial, Automotive & Semi)
Bio & Life Science
Alternatively:
Designing a power system for factory automation or process control systems presents challenges of reliability, scalability and compatibility with diverse equipment. These systems require stable power sources to ensure continuous operation in harsh industrial environments. Challenges include managing high-power demands, voltage fluctuations and electromagnetic interference. Additionally, addressing the needs of various industrial applications, from manufacturing to process control, adds complexity. Furthermore, ensuring compliance with industry standards and safety regulations, such as IEC 61000 and UL 508, is essential. Overcoming these challenges demands robust power distribution designs, advanced monitoring technologies and collaboration among industrial equipment manufacturers, system integrators and power system manufacturers.
Innovative
TDK-Lambda are committed to excellence not only in product quality and reliability, but in every aspect of our business. This ensures that innovative solutions meet rigorous standards for performance and durability.
Trusted
Every component has been individually selected and evaluated by a specialist TDK-Lambda components team. We know that trust is built one component at a time.
Reliable
All design validation and safety pre-approvals have been performed by in house engineers at our state of the art EMC and DVT centres and backed up by independent regulatory approvals.
Transportation & Storage systems
Automated Assembly Machines
Robotics
Laser/E-Beam Processing
Alternatively:
Designing a power system to be used within a renewable electronic systems involves challenges related to efficiency, reliability, and integration with fluctuating energy sources. These systems must efficiently harness energy from sources like solar and wind while ensuring stable power output. Challenges include managing variability in energy generation, optimizing energy storage solutions, and integrating renewable energy systems with existing grids. Additionally, addressing scalability, cost-effectiveness, and environmental impact is crucial. Furthermore, meeting regulatory requirements and grid standards while ensuring compatibility with various renewable energy technologies adds complexity. Overcoming these challenges demands collaboration among power system architects and power system manufacturers to drive the adoption of renewable energy electronic systems and contribute to a sustainable energy future.
Innovative
TDK-Lambda integrates sustainability principles into our innovation processes, striving to develop environmentally friendly products and manufacturing practices that minimize the impact on the planet.
Trusted
TDK-Lambda upholds the highest ethical standards in our business dealings, demonstrating honesty, fairness, and accountability in every interaction.
Reliable
TDK-Lambda ensures that every product meets stringent quality standards through rigorous testing, inspection, and adherence to industry best practices.
Wind
PV
Tidal
Hydroelectric
Biomass
Hydrogen
Alternatively:
Designing a power system for electronic semiconductor fabrication systems entails overcoming several challenges to ensure precision, reliability and safety. These systems demand stable and clean power to maintain consistent manufacturing processes, minimizing defects and maximising yield. Challenges include managing high-power demands and fluctuations to prevent equipment damage and production delays. Ensuring compatibility with sensitive semiconductor manufacturing equipment and addressing the stringent cleanliness requirements of cleanroom environments is crucial. Additionally, power system designs must incorporate redundancy and fault tolerance to minimize downtime and prevent costly interruptions in production. Overcoming these challenges requires sophisticated power management solutions, precise voltage regulation and rigorous testing to meet the exacting standards of semiconductor fabrication processes.
Innovative
Innovation starts with collaboration. We encourage our sales, technical support and engineering teams not only to work to together but to ensure our customers’ needs are at the heart of every development.
Trusted
Our expert FAE teams are on hand to support and guide you throughout your design-in process.
Reliable
TDK-Lambda ensures that every product meets stringent quality standards through rigorous testing, inspection, and adherence to industry best practices.
Production Equipment
Test System
Alternatively:
Designing a power system for commercial off-the-shelf (COTS) electronic systems in defence applications presents challenges of reliability, compatibility and customisation. These systems require power solutions that can meet the unique demands of military environments while leveraging commercially available components. Challenges include ensuring ruggedness and durability to withstand harsh operating conditions while maintaining interoperability with existing military equipment. Additionally, addressing security concerns and ensuring compliance with military standards and specifications is crucial. Furthermore, customizing COTS power solutions to meet specific military requirements without sacrificing performance or reliability adds complexity. Overcoming these challenges demands close collaboration between defence contractors and COTS vendors to develop tailored power solutions that enhance the capabilities and resilience of defence COTS electronic systems.
Innovative
If an off the shelf solution is not an option, no problem are Power+ team can advise you on bespoke design service including full customs.
Trusted
Our direct sales teams and distribution partners are here to listen, understand, and address questions promptly and effectively.
Reliable
Our development process requires products to meet or exceed stringent internal design guidelines based on our Japanese quality methodology refined over 70 years of power experience.
Detection: radar, sonar
Radio Communication
Aerospace test systems
Alternatively:
Designing a power system for electronic robotics systems presents challenges in ensuring efficiency, agility, and reliability. These systems require power sources that can deliver high currents for motor operation while maintaining stability for delicate electronic components. Challenges include managing dynamic power demands during movement and manipulation tasks to prevent voltage drops or surges. Additionally, optimizing power distribution to various subsystems while minimizing weight and space constraints is crucial for mobile robots. Furthermore, integrating power management features such as energy recovery and regenerative braking adds complexity. Overcoming these challenges demands advanced power systems to ensure optimal performance and longevity in diverse robotic applications.
Innovative
We encourage every aspect of our business to think outside the box, explore new ideas, and approach challenges with inventive solutions.
Trusted
No company can be successful without building strong, collaborative relationships with suppliers, distributors, and our customers, based on mutual respect, transparency and a shared commitment to success.
Reliable
All design validation and safety pre-approvals have been performed by in house engineers at our state of the art EMC and DVT centres and backed up by independent regulatory approvals.
Industrial
Surgical
AGV
AMR
Alternatively:
Designing a power system for broadcast, communication and professional audio electronic systems requires addressing challenges to ensure reliability, scalability and compatibility. Challenges include managing power quality to minimise electromagnetic interference and ensure signal integrity. Additionally, designing power systems that can accommodate the diverse needs of various communication technologies, such as satellite, wireless and fibre optics, adds complexity. Furthermore, addressing audible noise, energy efficiency and sustainability concerns while meeting regulatory standards is crucial. Overcoming these challenges demands comprehensive power system design, including redundancy and fault tolerance mechanisms, to ensure seamless operation and reliability in the fast-paced and evolving landscape of broadcast and communication technologies.
Innovative
TDK-Lambda as one of the leading global power supply manufacturers is striving to be at the forefront of technological innovation in electronic manufacturing, continuously investing in research and development to drive breakthroughs in products and processes.
Trusted
Building strong, collaborative relationships with suppliers, distributors, and other stakeholders based on mutual respect, transparency, and a shared commitment to success.
Reliable
TDK-Lambda: 70 years of expertise - we are just getting started.
Broadcast
Communications
Emergency Services
Professional Studio Equipment
Stadium and concert venues
Alternatively:
Designing a power system for LED lighting or signage electronic systems involves challenges related to efficiency, reliability and compatibility. These systems require power sources that can efficiently convert electricity to light while ensuring consistent brightness and colour accuracy. Challenges include managing thermal issues to prevent overheating and ensuring compatibility with dimming controls and smart lighting features. Additionally, addressing power quality concerns, such as flicker and harmonics, is crucial for maintaining performance and user comfort. Furthermore, meeting regulatory standards for energy efficiency and safety adds complexity. Overcoming these challenges demands innovative power supply designs, thermal management solutions, to ensure optimal performance and reliability in LED lighting and signage applications.
Innovative
Innovation starts with collaboration. We encourage our sales, technical support and engineering teams not only to work to together but to ensure our customers’ needs are at the heart of every development.
Trusted
Our commitment to quality and support ensures every one of our products exceeds the highest standards of quality and reliability.
Reliable
TDK-Lambda adheres to industry regulations, standards, and certifications ensuring product safety, performance, reliability and legal compliance.
Surgical lighting
Architectural
Stadium and concert venues
Signage
Alternatively:
Designing a power system for railway electronic systems involves overcoming challenges to ensure safety, reliability and efficiency. These systems must withstand harsh operating conditions, including vibrations, temperature extremes, and electrical noise from railway infrastructure. Challenges include providing stable power to sensitive onboard electronics while ensuring compatibility with diverse railway standards and voltages. Additionally, meeting stringent safety regulations and standards, such as EN 50155, requires robust design and testing procedures. Overcoming these challenges demands advanced power electronics, fault-tolerant architectures and collaboration among designers and power system manufacturers to ensure the seamless operation of railway electronic systems.
Innovative
We understand that there is never a one-size-fits-all solution. Our power experts are here to listen and discuss how best to realise your requirements, whether it is a modification to a standard product or a full custom design to your specification.
Trusted
Every component has been individually selected and evaluated by a specialist TDK-Lambda components team. We know that trust is built one component at a time.
Reliable
TDK-Lambda: 70 years of expertise - we are just getting started.
Trackside Systems
Signalling
Signage
Rolling stock internal Aux converters
Alternatively:
Designing a power system for harsh enviroments presents challenges related to ruggedness, reliability and performance in demanding operating conditions. These systems must endure extreme temperatures, vibrations and shock loads while delivering stable power to onboard electronics. Overcoming these challenges demands robust design methodologies and close collaboration with power system suppliers.
Innovative
The world never stops changing and neither do our customer requirements. We embrace technological advancements, and respond quickly to opportunities with innovative solutions.
Trusted
Our commitment to quality and support ensures every one of our products exceeds the highest standards of quality and reliability.
Reliable
Our reliability is built one component at a time.
Agriculture Equipment
Petro/Chemical industry
Marine industry
COTS
Alternatively:
Designing a power system for home medical electronic systems presents challenges centred on reliability, safety and user-friendliness. Challenges include providing compact, energy-efficient power solutions that accommodate various medical devices while ensuring compatibility with home electrical systems. Additionally, ensuring compliance with medical safety standards and regulations, such as IEC 60601, is essential to safeguard patient well-being. Overcoming these challenges requires innovative power management solutions, user-centric design and collaboration between device manufacturers and power systems providers to facilitate safe and effective home medical care.
Innovative
High-end equipment in the Medical market is known for long product lifecycles (up to 20+ years). Optimum performance throughout the lifecycle is supported by high quality E-Caps and conservative electrical and thermal derating, ensuring reduced field failures.
Trusted
We take safety seriously. All TDK-Lambda medical power supplies are approved to the latest IEC/EN/UL60601-1 medical standards, ensuring compliance for the customer's final application.
Reliable
All design validation and safety pre-approvals have been performed by in house engineers at our state of the art EMC and DVT centres and backed up by independent regulatory approvals.
Clinical Care
Patient Monitoring
Alternatively: