- Description
- Features& Advantages
- Mechanical Dimensions
- Electrical Data
- Mechanical Data
- Attenuation at Any Frequency
- Reviews 0
The LCS series cable is a UHF series economical radio frequency cable. It increases the cable attenuation in a small float but greatly reduces the cable cost. It is realized through the cable structure. It uses low-density PTFE medium, aluminum foil longitudinally wrapped and silver-plated wire braided. Become. This series of products are widely used in phased radar, military electronic equipment, and other applications;
Attenuation vs. Frequency dB/100m
Power Handling vs. Frequency (Maximum๏ผ
Phase Stability (Detection method: one rotation along the repeated bending radius๏ผ
Amplitude Stability (Detection method: one rotation along the repeated bending radius๏ผ
Features& Advantages
- Good amplitude stability
- Good price/performance ratio
- Super softness
- High shielding efficiency
- Maximum operating frequency DC-18GHz
Mechanical Dimensions
| Cable Model | LCS-600 | Material |
| Center Conductor | 1.45 | Silver Plated Copper |
| 0.057 | ||
| Dielectric | 4.20 | Microporous PTFE |
| 0.165 | ||
| Inner shield | 4.30 | Al Tape |
| 0.169 | ||
| Outer Braid | 4.80 | Silver Plated Copper Braid |
| 0.189 | ||
| Jacket | 5.80 | FEP |
| 0.228 |
Electrical Data
| Cable Model | Impedance | Vp (%) | Shield effectiveness | Permittivity | Delay | Capacitance | Voltage Withstand | Peak power | Cut-off Frequency |
| LCS-600 | 50ฮฉ | 0.76 | ๏ผ90dB | 1.73 | 4.39nS/m | 87.7pF/m | 1500 DC | 5.5 KW | 25GHz |
| 1.34nS/Ft | 26.7pF/Ft |
Mechanical Data
| Cable Model | Bend Radius: installation | Bend Radius: repeated | Weight | Temp, Operating& Installation | |||
|
LCS-600 |
20 | mm | 50 | mm | 60 | g/m | -55 +85โ |
| 0.787 | in | 1.969 | in | 0.040 | Ibs/ft | -67 +185โ | |
Attenuation at Any Frequency
| Frequency (MHz) | 300 | 1000 | 3000 | 6000 | 8000 | 10000 | 12000 | 13500 | 18000 | K1 | K2 |
| LCS-600 | 18.26 | 33.97 | 61.00 | 89.27 | 104.91 | 119.10 | 132.26 | 141.60 | ไธ | 1.0200000 | 0.0017100 |
Attenuation at Any Frequency = [ k1 x SQRT (Fmhz)] + [ k2 x Fmhz ]; dB per 100 meter
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