Content

1. The Overview of 8300101152 VWCD060WJDGS

2. The Key Features of 8300101152 VWCD060WJDGS

3. Typical Applications

4. Available Models

5. Why Choose Us

6. Conclusion

7. FAQ

1. The Overview of 8300101152VWCD060WJDGS – AxiForce 60 Series Cooling Fan

The 8300101152 VWCD060WJDGS is a high-performance 60mm axial cooling fan from ebm-papst’s innovative AxiForce product family. Designed for 24V DC systems, this compact fan delivers 56 m³/h of free airflow and 160 Pa static pressure while maintaining ultra-low noise levels (43 dB(A) at free air). Unlike conventional 60mm fans, the AxiForce platform features innovative aerodynamic air channels, a new single-phase motor concept, and powerful control electronics – making it ideal for thermal management in photovoltaic inverters, power conversion systems (PCS) , battery energy storage systems (BESS) , EV charging stations, and server/IT enclosures.

For customers across North America and Europe – including the United States, Canada, Germany, France, the UK, and the Netherlands – the 8300101152 VWCD060WJDGS solves critical cooling challenges in high-ambient-temperature environments (up to 70°C) with IP68 protection, salt fog protection (optional), and ATEX certification (optional). We maintain US and EU warehouse stock for fast regional delivery (2–5 business days).

2. Key Features of the 8300101152 VWCD060WJDGS DC Axial Fan

2.1 Compact Form Factor for High-Density Electronic Systems

One of the most significant advantages of the 8300101152 VWCD060WJDGS is its compact 60 × 60 × 25 mm design, which allows it to be integrated into applications where installation space is extremely limited. As electronic equipment continues to become more powerful and densely packed, thermal management solutions must deliver effective cooling without occupying valuable internal space.

This compact footprint makes the fan particularly suitable for solar inverters, power conversion systems (PCS), battery energy storage systems (BESS), telecom equipment, industrial control cabinets, networking hardware, and server racks. In many of these applications, designers face the challenge of balancing cooling performance with strict dimensional constraints. The VWCD060WJDGS provides a practical solution by delivering strong airflow performance within a small mechanical envelope.

Its compact design also simplifies system integration, enabling engineers to optimize equipment layouts while maintaining sufficient airflow around heat-generating components such as power modules, processors, transformers, and communication boards.

2.2 High-Efficiency Aerodynamic Design for Effective Heat Dissipation

Despite its small size, the VWCD060WJDGS is engineered to deliver impressive cooling performance. The fan utilizes an optimized axial-flow impeller design that maximizes airflow efficiency while maintaining stable pressure characteristics across varying operating conditions.

At free-air conditions, the fan delivers up to 56 m³/h (33 CFM) of airflow, providing effective cooling for compact electronic systems. More importantly, it is capable of generating a maximum static pressure of 160 Pa (0.64 in. H₂O), allowing it to maintain airflow even when installed behind restrictive components such as heat sinks, filters, ventilation grilles, or densely populated electronic assemblies.

This combination of airflow and pressure capability is critical in modern electronic equipment, where airflow pathways are often restricted by compact system architectures. A fan that can only deliver high airflow under ideal conditions may struggle once integrated into a real-world enclosure. The VWCD060WJDGS is designed to overcome this challenge by maintaining stable thermal performance under elevated resistance conditions.

For applications such as solar inverters, energy storage systems, and industrial automation equipment, this translates into more effective heat removal, improved component reliability, and enhanced system efficiency.

2.3 Long-Life Ball Bearing Technology for Continuous Operation

Reliability is a critical consideration for equipment operating continuously in demanding environments. The VWCD060WJDGS incorporates a high-quality dual ball bearing system designed to provide exceptional durability under long-term operating conditions.

The fan achieves an L10 service life of up to 70,000 hours at 40°C (104°F), making it suitable for applications where uninterrupted operation is essential. Even under elevated ambient temperatures of 70°C (158°F), the fan maintains an impressive expected service life of approximately 35,000 hours.

This long operational lifespan is particularly valuable for outdoor and mission-critical applications where maintenance access may be limited or costly. Examples include solar farms, telecommunications infrastructure, remote monitoring stations, electric vehicle charging systems, and industrial automation equipment.

Compared with sleeve-bearing alternatives, ball bearing technology offers superior resistance to temperature fluctuations, shaft orientation changes, and continuous operation. This results in improved reliability, reduced maintenance requirements, and lower total cost of ownership over the lifetime of the equipment.

2.4 Advanced PWM Speed Control and Real-Time Monitoring Capabilities

Modern thermal management systems increasingly require intelligent cooling control rather than fixed-speed operation. The VWCD060WJDGS addresses this need through integrated PWM speed control functionality and tachometer feedback output.

The fan supports PWM control frequencies ranging from 1 kHz to 30 kHz, with a typical operating frequency of 2 kHz. This enables precise adjustment of fan speed based on real-time thermal conditions, allowing cooling performance to be dynamically matched to system demand.

During periods of low thermal load, the fan can operate at reduced speeds to minimize power consumption and acoustic noise. When temperatures rise, fan speed can automatically increase to provide additional cooling capacity. This adaptive operation improves overall energy efficiency while extending component lifespan.

In addition, the open-collector tachometer output provides continuous speed monitoring capability. System controllers can use this feedback signal to verify fan operation, detect abnormal performance conditions, and support predictive maintenance strategies.

For critical applications such as energy storage systems, telecommunications equipment, and industrial control systems, this level of monitoring enhances operational safety and improves overall system reliability.

2.5 IP68 Protection for Harsh Outdoor Environments

One of the standout features of the VWCD060WJDGS is its IP68-rated environmental protection, which provides an exceptionally high level of resistance against dust, moisture, and water ingress.

The fan is completely dust-tight and has been tested for water immersion at a depth of 1.2 meters for up to two hours. This level of protection far exceeds the requirements of many conventional electronic cooling fans and makes the product particularly suitable for demanding outdoor applications.

Solar power installations, battery energy storage systems, telecom base stations, transportation infrastructure, and remote monitoring equipment are frequently exposed to rain, dust storms, humidity, and other challenging environmental conditions. In these environments, cooling system failures caused by contamination or moisture ingress can result in costly downtime and equipment damage.

The IP68 construction of the VWCD060WJDGS helps mitigate these risks by protecting critical internal components from environmental exposure. This improves long-term reliability and ensures stable cooling performance even in locations where environmental conditions are difficult to control.

For operators of outdoor infrastructure, this durability translates into reduced maintenance requirements and increased system availability.

2.6 International Safety Certifications for Global Deployment

The VWCD060WJDGS is designed for worldwide deployment and carries internationally recognized safety certifications that support integration into equipment destined for global markets.

The fan is certified to UL 507 requirements for North America and complies with EN 62368 safety standards widely used throughout Europe. These certifications demonstrate compliance with rigorous requirements related to electrical safety, construction quality, and operational reliability.

For OEM manufacturers and equipment designers, using a certified cooling component can significantly simplify product approval processes and reduce certification complexity when entering international markets.

In addition to electrical safety compliance, the fan is available with EMC Class B performance options for applications involving sensitive electronic equipment. Electromagnetic compatibility is increasingly important in modern systems where multiple electronic devices operate in close proximity. Effective EMC performance helps minimize interference risks and supports stable system operation.

As a result, the VWCD060WJDGS not only delivers strong thermal performance but also provides the regulatory compliance and reliability required for deployment in professional industrial, energy, telecommunications, and electronic infrastructure applications worldwide.

3. Typical Applications of the 8300101152 VWCD060WJDGS in Renewable Energy and IT Infrastructure

As renewable energy systems, energy storage technologies, electric vehicle infrastructure, and edge computing networks continue expanding globally, thermal management has become a critical factor in ensuring equipment reliability and operational efficiency. Power electronics are becoming increasingly compact while simultaneously handling higher power densities, creating significant cooling challenges for system designers.

The 8300101152 VWCD060WJDGS is specifically designed to address these challenges. Combining a compact form factor, IP68 environmental protection, long service life, PWM speed control, and intelligent monitoring capabilities, the fan is ideally suited for applications where reliability, efficiency, and environmental durability are essential.

Its versatility allows it to be deployed across a wide range of renewable energy and information technology systems, from solar power generation and battery storage to telecommunications infrastructure and edge computing environments.

3.1 Photovoltaic (PV) Solar Inverters

Solar inverters represent one of the most demanding applications for compact cooling fans. During operation, key power electronic components such as IGBTs, MOSFETs, transformers, and DC link capacitors generate significant amounts of heat that must be effectively removed to maintain system efficiency and component longevity.

Modern string inverters and central inverters are frequently installed outdoors on rooftops, solar farms, industrial facilities, and utility-scale photovoltaic projects. These environments expose cooling systems to dust, rain, humidity, and large temperature fluctuations throughout the year.

The VWCD060WJDGS is particularly well suited for these installations because of its IP68-rated construction. Its fully sealed design prevents dust ingress and protects internal components from water exposure, helping ensure long-term reliability in harsh outdoor environments.

Another important advantage is its PWM speed control capability. Solar inverter thermal loads vary significantly throughout the day depending on solar irradiance and power generation levels. During peak sunlight hours, the fan can operate at higher speeds to maximize cooling performance. During low-generation periods or nighttime operation, fan speed can be reduced to lower noise levels and minimize unnecessary energy consumption.

This adaptive cooling approach not only improves overall thermal efficiency but also reduces mechanical wear, helping extend fan service life and reduce maintenance requirements over the lifetime of the inverter system.

3.2 Power Conversion Systems (PCS) for Energy Storage Applications

Power Conversion Systems (PCS) are the core interface between battery energy storage systems and the electrical grid. These systems manage bidirectional power flow, converting DC energy stored in batteries into AC power for grid export while also supporting charging operations.

Because PCS units continuously process large amounts of electrical energy, they generate substantial thermal loads that require reliable cooling. Inadequate thermal management can negatively affect conversion efficiency, component lifespan, and system reliability.

The VWCD060WJDGS provides an effective cooling solution for compact PCS cabinets where space is limited but thermal performance remains critical. Its optimized aerodynamic design generates a strong pressure capability that allows the fan to maintain airflow even when intake filters create significant resistance.

This characteristic is particularly valuable in industrial, agricultural, and utility-scale installations where airborne dust and contaminants often require filtered ventilation systems. While many compact fans experience dramatic airflow reduction when filter resistance increases, the VWCD060WJDGS is designed to maintain stable cooling performance under these more challenging operating conditions.

Its operating temperature range from -20°C to +70°C (-4°F to +158°F) further supports deployment across a wide variety of climates, from cold northern European energy storage projects to hot utility-scale installations in southern regions and desert environments.

3.3 Battery Energy Storage Systems (BESS)

Battery Energy Storage Systems have become a key component of modern renewable energy infrastructure. Whether deployed for grid stabilization, renewable energy integration, peak shaving, or backup power applications, these systems rely heavily on effective thermal management to maintain battery safety and performance.

Lithium-ion batteries are particularly sensitive to temperature variations. Uneven cooling can lead to temperature imbalances between battery modules, accelerating cell degradation and potentially increasing the risk of thermal runaway events.

The VWCD060WJDGS supports uniform airflow distribution throughout battery racks and enclosure systems, helping maintain consistent operating temperatures across battery modules. Its compact size also allows multiple fans to be installed in parallel configurations, enabling scalable cooling architectures tailored to different battery cabinet designs.

For residential energy storage systems installed in garages, utility rooms, or basements, acoustic performance is also an important consideration. With a low noise level of approximately 43 dB(A), the fan provides effective cooling while minimizing disruption to nearby occupants.

In larger commercial and containerized battery storage systems, the combination of long operating life, intelligent speed control, and environmental protection contributes to lower maintenance costs and improved system availability. These benefits are particularly valuable for remote installations where service access may be limited.

3.4 EV Charging Infrastructure and DC Fast Chargers

The rapid adoption of electric vehicles has led to significant growth in high-power charging infrastructure worldwide. Modern DC fast chargers contain high-density power electronics, including rectifiers, converters, filters, and control systems that generate considerable heat during operation.

Thermal management plays a critical role in maintaining charging efficiency, protecting sensitive electronic components, and ensuring reliable charger availability. Any cooling system failure can result in reduced charging performance, system derating, or unexpected equipment downtime.

The VWCD060WJDGS is well suited for these demanding applications due to its robust ball bearing system, which delivers an operational lifetime of up to 70,000 hours under typical conditions. This durability is particularly important for charging stations installed in roadside environments where equipment is exposed to vibration, continuous operation, and changing weather conditions.

Many charging stations are also deployed in coastal regions where salt-laden air can accelerate corrosion of electronic and mechanical components. The availability of optional salt-fog protection enhances long-term durability in these environments, making the fan suitable for installations in coastal areas such as California, Florida, Southern Europe, and other marine-influenced locations.

As EV charging infrastructure continues expanding, reliable cooling solutions like the VWCD060WJDGS play an increasingly important role in ensuring charger performance and reducing maintenance costs.

3.5 Edge Computing, Servers, and Telecommunications Equipment

The growth of edge computing, 5G networks, industrial IoT, and distributed data processing has created increasing demand for compact and reliable cooling solutions in IT infrastructure. Unlike traditional centralized data centers, many edge computing systems operate in decentralized locations where environmental conditions may be less controlled and maintenance access may be limited.

The VWCD060WJDGS is ideally suited for edge servers, telecommunications cabinets, industrial PCs, networking equipment, and remote computing infrastructure. Its compact dimensions allow it to fit within densely packed electronic enclosures while still delivering the airflow required to cool processors, communication modules, power supplies, and storage devices.

One of the most valuable features in these applications is the integrated tachometer output. This monitoring capability enables remote management systems to continuously verify fan performance and detect abnormal operating conditions before a complete failure occurs.

For network operators and data center managers, predictive maintenance capabilities are becoming increasingly important. Instead of reacting to overheating alarms after a cooling failure has already occurred, operators can identify declining fan performance early and schedule maintenance proactively.

Combined with its long operational lifespan, low power consumption, and IP68 environmental protection, the VWCD060WJDGS provides a highly reliable cooling solution for next-generation IT infrastructure where uptime, efficiency, and remote monitoring are critical operational requirements.

4. Available Models

5. Why Choose Our VWCD060WJDGS for Your US/EU Project?

ISO 9001:2015 Certified – Same quality as original ebm-papst. Full factory traceability from ebm-papst’s global manufacturing network.

US & EU Warehouse Stock – Warehouses located in the USA (Ohio/Memphis) and Germany (Hollenbach/Mulfingen). 2–3 day delivery to most US states; 2–5 days to EU countries (Germany, France, UK, Netherlands, Italy, Spain).

1-Year Warranty – Full replacement warranty on all VWCD060WJDGS fans.

Technical Support – Datasheets, wiring diagrams, PWM configuration guides, and IP68 installation notes available in English and German.

Bulk Pricing – Volume discounts for 10+ units (solar farm projects, EV charger networks, BESS containers, server OEMs).

Local Compliance – UL507 (US/Canada), CE (Europe), UKCA (UK), EAC (Eurasia). No re-certification needed.

6. Conclusion

The 8300101152 VWCD060WJDGS from ebm-papst’s AxiForce series sets a new benchmark for compact 60mm cooling fans in demanding thermal management applications. Its unique combination of high airflow (56 m³/h), static pressure (160 Pa), and IP68 protection ensures reliable operation in harsh environments—from solar inverters and battery storage systems to EV charging infrastructure and edge computing nodes. Advanced features including PWM speed control, tachometer feedback, and dual-ball bearings with a 70,000-hour lifespan deliver intelligent, low-maintenance cooling. With UL, CE, and UKCA certifications plus ready inventory in US and EU warehouses, this fan enables fast, compliant deployment for renewable energy and IT projects worldwide. For engineers seeking durability, efficiency, and global regulatory support, the VWCD060WJDGS is a proven, future-ready solution.

7. FAQ – VWCD060WJDGS

Q: Is VWCD060WJDGS UL certified for use in the United States?

A: Yes. UL507 (File E38324) – Certified for use in the US and Canada. Also meets CSA C22.2 No.113.

Q: Can this fan be used outdoors in a Texas summer (45°C / 113°F)?

A: Yes. Rated for -20°C to +70°C (-4°F to +158°F). IP68 protects against dust, rain, and pressure washing. Ball bearing life is 35,000 hours at 70°C – sufficient for 4+ years of continuous summer operation.

Q: Does this fan support speed control via PWM?

A: Yes. PWM input frequency range: 1–30 kHz (typical 2 kHz). 0% PWM = off (standby), 100% PWM = full speed. Internal pull-up to 3.3V (50–300 µA). Compatible with Arduino, Raspberry Pi, and industrial PLCs.

Q: Delivery time to California or Texas?

A: 2–3 business days from our US warehouse (Ohio). Expedited 1-day shipping available.

Q: Delivery time to Germany, France, or the UK?

A: 2–5 business days from our German warehouse (Baden-Württemberg). UK deliveries cleared for customs – no additional delays.

Q: Do you provide a datasheet with detailed dimensions?

A: Yes. Download the PDF below – includes all mechanical drawings (60x60x25 mm, 4x Ø4.3 mm mounting holes, 310 mm wire length) in both metric and imperial units.

Q: Is this fan CE marked for the European market?

A: Yes. CE declaration of conformity available. Compliant with EN 62368 (audio/video/ICT equipment safety) and EN 55032 (EMC Class B).

Q: Can I get a sample before placing a bulk order?

A: Yes. Single-unit samples available for engineering evaluation. Contact our technical sales team.

 Request Datasheet & Quote

- Download VWCD060WJDGS Datasheet (PDF)

- Request Bulk Pricing Quote

- Contact Technical Support

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