【Voltage Compatibility】
When using electrical appliances, please note that they are designed for Japanese voltage specifications (90-110V), so if you use them with a different voltage, it may cause a malfunction.
【Plug Type】
Our products use Japanese plug types (A or B type).
Please use a conversion adapter if necessary.
【Important Note on Transformers and Adapters】
A transformer adjusts voltage to match your device’s requirements.
A conversion adapter only changes the plug shape and does not adjust voltage.
Using only a conversion adapter without a transformer may result in damage to the product.
【Liability】
We are not responsible for malfunctions or damages caused by improper use, such as operating the product without a transformer.
NGFF M.2 NVMe Mainboard to CF Express Extension Adapter M2 M Key, Compatible with CFE Type B R5 Z6 Z7 XBOX Memory Card.
Bandwidth speed: PCIe4.0 gen4x2 (CFexpress B specification full speed compatible)
Product use: Suitable for extending CFExpress card to M.2 NVME slot. (XQD cards are not supported).
Material Advantages: Using high quality gold-plated connectors, the PCB uses high-frequency, low resistance high-quality materials, and the PCB is precision made.
Design advantages: differential signal enhancement layout design, no CAF micro short circuit phenomenon, high speed signal data transfer, no parasitic capacitance, no parasitic inductance signal attenuation interference.
NGFF M.2 NVMe Mainboard to CF Express Extension Adapter M2 M Key, CFE Type B Compatible R5 Z6 Z7 XBOX Memory Card.
Bandwidth speed: PCIe4.0 gen4x2 (CFexpress B specification full speed compatible)
Product usage: Suitable for extending CFexpress card to M.2 NVME slot. (XQD cards are not supported).
Material Advantages: High-quality gold-plated connectors are used, the PCB uses high-frequency and low-resistance high-quality materials, and the PCB is precision made.
Design advantages: differential signal enhancement layout design, no CAF micro short circuit phenomenon, high speed signal data transmission, no parasitic capacitance, no parasitic inductance signal attenuation interference.
