Cart
0
Aitrip 10 Pack Xl6009 Dc Dc Buck Boost Voltage Converter Power Module 4A 400Khz Adjustable Switch Module 3.8 30V To 1.25 35V Pow
Vendor: Aitrip
Type: Power Strips & Surge Protectors
Sku: WBEEAB08FM414QN
Availability: In Stock
Couldn't load pickup availability
Guarantee safe checkout
Sold by Electroeshop, an authorized reseller.
Returns accepted within 30 days | support@electroeshop.com
Shipping Information
- Free Standard Shipping — United States only
- Processing Time: 1–3 business days
- Estimated Delivery: 3–5 business days after dispatch
- Double-boxed, fully insured & discreetly packaged
- Tracking number sent via email once dispatched
- Orders over $250 require signature upon delivery. Taxes calculated at checkout.
Returns & Refund
Returns accepted within 30 days of delivery.
Damaged or Defective Item
Free return shipping + replacement or full refund
Wrong Item Received
Free return shipping + replacement or full refund
Change of Mind
Return shipping at customer's expense · 25% restocking fee applies
All returns require a Return Authorization (RA) number before sending.
View Full Return & Refund Policy
Aitrip 10 Pack Xl6009 Dc Dc Buck Boost Voltage Converter Power Module 4A 400Khz Adjustable Switch Module 3.8 30V To 1.25 35V Pow
$17.27
Frequently Asked Questions
- Q: What is the input voltage range for the AITRIP XL6009 module? A: The input voltage range is from three volts to thirty volts. The optimal working voltage is between five volts and thirty volts.
- Q: What is the maximum output voltage of the AITRIP XL6009 module? A: The maximum output voltage is thirty-five volts. This allows for a wide range of applications and adjustments.
- Q: What is the maximum output current for this power module? A: The maximum output current is four amps. This high current capability is suitable for various electronic applications.
- Q: What is the size of the AITRIP XL6009 module? A: The dimensions of the module are not specified. However, it is designed to be compact for easy integration into projects.
- Q: What materials are used in the AITRIP XL6009 power module? A: The materials used are not explicitly listed. However, it is a high-performance electronic component designed for efficiency.
- Q: How do I install the AITRIP XL6009 voltage converter? A: To install the module, connect the input voltage to the designated terminals, ensuring correct polarity. Then adjust the output voltage as needed.
- Q: Is the AITRIP XL6009 suitable for beginners? A: Yes, it is suitable for beginners. The module is user-friendly and can be used in various DIY electronic projects.
- Q: Can I use the AITRIP XL6009 for charging a battery? A: Yes, it can be used as a boost charger. It is effective for supplying power to batteries in various applications.
- Q: How should I care for the AITRIP XL6009 module? A: Ensure that it operates within specified voltage limits and avoid exposing it to extreme temperatures. Regularly check connections for wear.
- Q: What is the operating temperature range for the XL6009? A: The operating temperature range is from negative forty degrees Celsius to positive eighty-five degrees Celsius. This wide range enhances its versatility.
- Q: What should I do if the module does not power on? A: Check the input voltage and ensure it is within the specified range. Also, verify that the connections are secure and correctly polarized.
- Q: Is there a warranty for the AITRIP XL6009 module? A: Warranty details are typically provided by the manufacturer. Check with the seller for specific warranty information.
- Q: Can I return the AITRIP XL6009 if it arrives damaged? A: Yes, return policies usually allow for returns if the item is damaged during shipping. Contact the seller for instructions.
- Q: How do I adjust the output voltage on the AITRIP XL6009? A: You can adjust the output voltage using a potentiometer located on the module. Turn it to the desired voltage setting.
- Q: What is the conversion efficiency of the AITRIP XL6009? A: The conversion efficiency can reach up to ninety-four percent. This high efficiency minimizes energy loss during operation.