0.1 Mm EMI Wave Absorber Materials with Adhesive + Pet Film
|FOB Unit Price:||US $152 US $140|
|Purchase Qty. (Square Meters)||FOB Unit Price|
|Production Capacity:||100000 PCS / Month|
|Transport Package:||Carton + OPP Bag|
|Payment Terms:||L/C, T/T, Paypal, Money Gram, Western Union|
- Model NO.: GF2000
- Thickness: 0.1mm
- Use Frequency: 500MHz - 10GHz
- Use Temp: -25~85 Degree
- Specification: UL, SGS
- Size: 1m*1m
- Tensile Strength: 6MPa
- Permeability U′ (10MHz): >=120
- Trademark: OEM, ODM
- Origin: Shenzhen China
1.mobile phone, GPS and other wireless communications products;
2. notebook computers, digital cameras, flat panel display (PDP) and other digital products;
3. health care equipment of high precision electronic equipment and electronic circuit board (PCB)
At the same time, the absorbing material is widely applied to increase the RFID/NFC identification distance and efficient wireless charger design.
The excellent wave properties of absorber , is the best choice for EMC / EMI engineer.
Size : 1m x 1m
Thickness : 0.1mm
Special Size and shape , can according to customer's requirement to make it .
Permeability : 120 u'
Surface Resistance : ≥1.0x107 Ω
Use Temperature : -25ºC ± 90ºC
Use Frequency : 10MHz - 4GHz
Wave absorbing materials with high permeability and low loss. This feature can play the role of the bunching of flux, for 13.56MHz and the following frequency RFID (radio frequency identification) and NFC (near field communication) technology, provide the effective solutions for antenna under the metal background , the interference tag / reader to read and write properly. At the same time JRF-GF2000B absorbing material with its excellent electromagnetic wave absorption properties over a wide frequency range of 10MHz - 6GHz, can provide an effective means for the electronic components / devices to solve the EMC/EMI problem. In addition, JRF-GF2000B absorbing materials with high Q value (quality factor), particularly suitable for improving wireless charger charging efficiency, is the best choice of efficient wireless charger design.