MF Cable Seires
Titantek
MF (Multiflex™) Coaxial Cable
| Key Specifications (Click on Data Sheet Above for Additional Details). | ||
| Generic Name | MF402 | MF405 |
| Flex Type | Flexible | Flexible |
| Impedance | 50 Ohm±2 Ω | 50 Ohm±2 Ω |
| Center Conductor | SPCW | SPC |
| Dielectric Type | PTFE | PTFE |
| Inner Braid | SPC | SPC |
| Outer Braid | SPC | SPC |
| Jacket Material | FEP(Blue Color) | FEP(Blue Color) |
| Jacket Diameter | 0.163 in | 0.104 in |
| Velocity of Propagation | 69.5% | 69.5% |
| Attenuation 100ft at 1 Ghz. | 13.0 dB | 23.0dB |
| Frequency, Max | 20GHz | 20GHz |
| Operating Temperature | -55℃∼200℃ | |
| Dielectric resistance | Min. 1000 ㏁.㎞ at20℃ | |
| Center Conductor Type | Solid | Solid |
| Test voltage(1 min) | 5000Vrms | 5000Vrms |
| Approx. weight | 43.6.0kg/km | 19.1kg/km |
| Coax Type | Coax | Coax |
MF (Multiflex™) Coaxial Cable
Titantek’s MF microwave cables are the flexible alternative to semi-rigid cables. They are used in commercial and military RF and microwave airborne systems, communication systems, cellular base stations, satellite, ground systems – in brief: anywhere a flexible semi-rigid cable is required.
Although typical and maximum attenuation values are given for discrete frequencies, typical attenuation values may be calculated by using K1 and K2 factors for each construction. The K1 factor is calculated by taking into consideration the type, strand factor, and diameter of the center conductor, and the impedance of the cable. The K2 factor is calculated by taking into consideration the velocity of propogation and the dissipation factor of the dielectric.
Formula for Calculating Attenuation using K Factors:
Attenuation (dB/100 ft) at any frequency (MHz) =(K1 x √¯¯¯¯¯ + (K2 x frequency)