How does the YW20051048BU-EBR-12 compare to other products on the market
This 48 VDC, 220 × 200 × 51 mm axial fan from Y.S. Tech (model YW20051048BU-EBR-12) is engineered for high airflow and strong static pressure in constrained, high-restriction systems. Measured performance highlights include a maximum flow near 693 CFM (1,179 m³/h), peak static pressure about 4.84 inH2O (1,210 Pa), and a top speed near 6,500 RPM. Those attributes make this fan an excellent candidate for cabinet, rack, and power-electronics cooling tasks where pressure across a heat sink or filter controls delivered flow.
Beyond raw performance, the model includes practical integration features for NPI and thermal engineers, such as PWM and 0 to 10 V speed control, FG tach output, and a durable aluminum die-cast frame. Y.S. Tech pairs this hardware with engineering consultation and CFD-driven design services that accelerate time to market for new products.
## Table Of Contents
- Main Content
- Product Overview and Raw Numbers
- How This Product Compares on Airflow and Static Pressure
- Current Draw and Electrical Behavior Versus Competitors
- Noise, Bearing Life, and Durability
- Controls and Integration Advantages
- Use Cases Aligned to Verticals
- Practical Selection Guidance Versus SANYO DENKI, NMB, ebm-papst and Others
- Recommended Evaluation Checklist for NPI Teams
- Key Takeaways
- FAQ
- About ystechusa
### Product Overview and Raw Numbers
The Y.S. Tech YW20051048BU-EBR-12 is a 48 VDC axial fan with a frame of 220 × 200 × 51 mm and a weight of 990 g. Key measured results from the manufacturer test report include:
- Max airflow: 693.36 CFM (1,178.72 m³/hr) in free-air conditions
- Max static pressure: 4.84 inH2O (1,210 Pa) at zero flow
- Measured top speed: about 6,500 RPM
- Bench peak current: up to 6.70 A at locked-rotor or near-zero flow test points, while rated current is 2.50 A for nominal operation
- Acoustic level at full speed: about 75 dB(A)
- Life expectancy: L10 approximately 70,000 hours at 40°C
These figures indicate a clear design intent: pressure-first performance for restricted housings and dense heat sink arrays. The test report also provides a nine-point P-Q curve with associated current and power at each point, which is valuable for accurate system-level power budgeting.
### How This Product Compares on Airflow and Static Pressure
Static pressure capability is decisive when you need to force air through heat sinks, filters, or tight ducts. The Y.S. Tech unit’s 1,210 Pa zero-flow number positions it strongly for medium- to high-restriction systems such as telecom racks, EV charger cabinets, and battery enclosures. Compared with typical 200 × 51 mm DC fans from SANYO DENKI, NMB, and ebm-papst, the Y.S. Tech model favors pressure-first performance while many market alternatives emphasize lower-noise or lower-current free-air solutions.
When you compare vendors, insist on full P-Q curves and matching current measurements. The Y.S. Tech dataset includes nine measured P-Q points, which makes it straightforward to predict motor load and delivered flow once you map the fan curve to your enclosure pressure drop.
### Current Draw and Electrical Behavior Versus Competitors
YS Tech lists a rated current of 2.50 A under nominal conditions, but bench testing shows currents up to 6.70 A at locked rotor or near-zero flow. This difference is critical for power supply sizing, fuse selection, and thermal protection. Some competitors balance lower steady-state current against lower peak torque, or they offer EC motors that reduce continuous power consumption and provide more refined motor-level control. If precise efficiency and low steady-state draw are priorities, request EC blower options or verify PWM and 0 to 10 V control behavior for your operating envelope.
The Y.S. Tech fan provides a 3-pulse-per-revolution FG signal and supports PWM control frequencies from 1 to 10 kHz, which simplifies integration with microcontrollers and BMS systems.
### Noise, Bearing Life, and Durability
At full speed the unit measures approximately 75 dB(A). That noise level is typical for a large, high-pressure axial fan and acceptable for industrial, telecom, and many power-electronics locations. For patient-facing medical or quiet office equipment, you should examine acoustic performance at the actual operating point rather than only the full-speed number. Trade-offs to lower noise include running at part load, selecting EC blowers, or deploying different impeller geometries, which Y.S. Tech can help evaluate.
The fan uses two ball bearings and reports L10 life of roughly 70,000 hours at 40°C, which supports long-life industrial and telecom deployments. The frame is aluminum die-cast ADC-12 and the impeller is PPE/PS with 30% glass fiber, providing mechanical stiffness for high static pressure operation.
### Controls and Integration Advantages
This model supports PWM control (1 to 10 kHz) and a 0 to 10 V analog speed input, plus FG tach output at three pulses per revolution. These features make it simple to integrate into embedded controllers, motor controllers, or energy systems where closed-loop thermal management is required. In addition, Y.S. Tech emphasizes form, fit, and function flexibility and can modify base models to reduce tooling costs and accelerate NPI.
For teams requiring early-stage thermal strategy, consider pairing the fan with Y.S. Tech’s consultation services. Read about how expert thermal consultation reduces re-spins and shortens time to market at the Y.S. Tech site: [how early thermal consultation shortens time to market](https://www.ystechusa.com/heres-why-expert-thermal-consultation-shortens-time-to-market-for-npi-engineers-i-58.html).
### Use Cases Aligned to Verticals
- Automotive and EV charging: Ideal for cabinet ventilation and charger enclosures where high pressure and rugged frames improve cooling through filters or narrow ducts. Y.S. Tech supports automotive-grade adaptations including AECQ on request.
- Telecom and server racks: The high static pressure suits 1U to mid-depth rack blow-through designs and rear-door cooling when the P-Q curve is matched to equipment pressure drop.
- Industrial motor controls and power electronics: The aluminum die-cast frame and high-pressure impeller make this fan suitable for inverter cabinets and drive enclosures.
- Lighting and outdoor equipment: Hardened material options and IP-rated assemblies from Y.S. Tech let you use this fan in weather-exposed enclosures.
- Medical equipment: For patient or lab devices where noise and low current are critical, evaluate the fan at your operating point and consider lower-noise variants or EC alternatives.
YS Tech’s combination of CFD, simulation, and U.S.-based engineering support helps NPI programs move from prototype to production with fewer design iterations and lower supply risk. See the Y.S. Tech USA homepage for an overview of product breadth and services: [YS Tech USA main site](https://www.ystechusa.com/).
### Practical Selection Guidance Versus SANYO DENKI, NMB, ebm-papst and Others
- If static pressure across a heat sink or filter is the primary constraint, start with the Y.S. Tech P-Q curve because the 1,210 Pa zero-flow point is competitive for restricted systems.
- If acoustic requirements are strict and restriction is light, evaluate quieter, lower-power options from competitors that focus on noise reduction while validating P-Q trade-offs.
- If system power budget is tight, insist on measured current at your actual operating point instead of only rated current. Y.S. Tech provides multi-point current data to help predict in-situ power draw.
- If you need rapid customization, local engineering support, and managed inventory, Y.S. Tech’s US-based engineering and stocking programs reduce re-spin risk and lead time compared with some global vendors. For market context on thermal management growth and investment trends, review a U.S. thermal market forecast and market growth drivers from independent coverage: [U.S. thermal management market forecast](https://www.openpr.com/news/3941761/u-s-thermal-management-technologies-market-expected-to-reach) and [United States thermal management market growth drivers](https://www.openpr.com/news/4228719/united-states-thermal-management-market-2025-growth-drivers).
### Recommended Evaluation Checklist for NPI Teams
- Request full P-Q curves with matched current and acoustic figures for each candidate fan.
- Run CFD or validated thermal models with the fan installed in the actual housing rather than relying on free-air numbers. Y.S. Tech offers CFD support and thermal consultation.
- Verify worst-case starting and locked-rotor current to size power rails and protection.
- Confirm available IP and material options for your environment, connector options, and assembly requirements.
- Evaluate supplier flexibility for mechanical changes, labeling, and connector choices to minimize tooling costs.
- Request life and reliability test data that match your ambient and duty cycle and validate in your product-level test rig.
## Key Takeaways
- Choose the Y.S. Tech 220 × 200 × 51 mm 48 VDC fan when high static pressure is required, because the measured 1,210 Pa zero-flow figure supports restrictive housings.
- Compare full P-Q curves, not single-number CFM, and verify current draw across the P-Q curve to size electronics and protection correctly.
- Balance noise versus pressure by testing the fan in the installed housing; consider EC or controlled part-load operation for quieter systems.
- Leverage Y.S. Tech engineering support and U.S. stocking to shorten NPI cycles and reduce supply risk.
### FAQ
Q: what is the difference between rated current and peak current on the specification?
A: rated current is the nominal operating current specified for typical conditions, while peak or measured current from P-Q testing shows how the motor behaves at different loads, including near-locked rotor conditions. design power supplies and protection circuits using the highest credible current for your worst-case operating point. ask the vendor for multi-point current data under your expected restriction to accurately size fuses, power rails, and thermal limits. YS Tech provides a full P-Q and current table that can be used directly in supply calculations.
Q: is this fan suitable for medical devices where noise is critical?
A: the fan produces about 75 dB(A) at full speed, so for patient-facing medical equipment you should examine acoustic levels at your required airflow point, not just full-speed numbers. reduce noise by running at a lower duty, using EC motor options, selecting different impeller geometries, or adding acoustic dampening in the enclosure. request YS Tech acoustic data and, if needed, a matched low-noise variant or a validated CFD study to tune system-level performance.
Q: how should I interpret the fan’s static pressure number when designing around a heat sink?
A: static pressure at zero flow gives you the maximum pressure the fan can generate against a closed system. use the P-Q curve to find the operating point where fan pressure equals the pressure drop of the heat sink or duct. this intersection yields expected flow and current. YS Tech supplies multi-point P-Q data, which you should combine with measured or modeled heat sink pressure-drop curves to size the system correctly.
Q: what electrical control options are available and how do they integrate into controllers?
A: the fan accepts PWM control at 1 to 10 kHz and a 0 to 10 V speed input, and it provides an FG tach signal for rpm monitoring. integrate PWM or analog control into microcontrollers or motor controllers using the specified high and low level thresholds. for systems needing fieldbus control, ask about CAN or LIN adaptations or EC blower variants that provide advanced motor-level control features.
Q: can YS Tech modify the fan for my product without new tooling?
A: yes, YS Tech highlights the ability to modify base commercial models to save tooling dollars, add specialty connectors, or apply sealed leads and silicone over-wires for high-voltage contexts. request a proposal describing mechanical and electrical changes and an impact analysis on lead time and minimum order quantity to understand cost and schedule trade-offs.
Q: how do I reduce supply risk while integrating a custom fan?
A: use vendor-managed inventory, safety stock in regional warehouses, and early qualification testing to de-risk supply. YS Tech offers stocking programs in California and flexible manufacturing lines that support low-volume, custom runs, which helps reduce lead time and the risk of production interruptions.