LAMi-Con

Broadcast Applications

  • Designed for SW broadcast applications
  • Widely used in high power broadcast transmitters from 500 kW to 1000 kW
  • Forced air cooling or highly efficient water cooling allow for very high current capability
  • Wide tuning range from Cmax to Cmin (up to 30:1) for different applications like wood drying and industrial generators
  • Available as motorized and non-motorized vacuum capacitor

Technical Features

Capacitance (Cmax) 1000 pF to 2000 pF
Voltage (peak test) 35 kV to 50 kV
Current (rms) 136 A to 891 A
Diameter 211 mm
Overall length 372 mm - 640 mm
Inductance (@ Cmax) ≤ 34 nH - ≤ 39 nH

Contact our local experts if you need 3D drawings, C curves or other additional data.

LAMi-Con C[pF] Upt[kV] I[A] Dia.[mm] Length[mm] Datasheet
CVLA-1000AA/50-AAB 40 - 1000 50 221 208 372 PDF
CVLA-1000AA/50-AAB-P 40 - 1000 50 221 208 372 PDF
CVLA-1000AC/50-AAB 40 - 1000 50 136 208 372 PDF
CVLA-1000BW/50-AAE-R 100 - 1000 50 521 208 478 PDF
CVLA-1000BW/50-AAE-RV1 100 - 1000 50 521 208 478 PDF
CVLA-1000BW/50-AAE-RV2 65 - 1000 50 521 208 478 PDF
CVLA-1000BW/50-ZJP-R 85 - 1000 50 525 208 380 PDF
CVLA-1000CW/50-ABE-N 100 - 1000 50 843 208 474 PDF
CVLA-1000DW/50-AAE-HJNR 85 - 1000 50 602 208 454 PDF
CVLA-1000DW/50-AAE-JN 100 - 1000 50 602 208 459 PDF
CVLA-1000FW/50-ABE-JN 100 - 1000 50 839 208 474 PDF
CVLA-1000GW/60-ZJP-NR 69 - 1000 60 891 208 470 PDF
CVLA-1300AW/50-ABE-FNR 40 - 1300 50 797 208 578 PDF
CVLA-1300AW/50-ABE-HN 40 - 1300 50 797 208 546 PDF
CVLA-1300AW/50-ABE-HNR 40 - 1300 50 797 208 570 PDF
CVLA-1300CW/50-ABE-HJN 40 - 1300 50 757 208 546 PDF
CVLA-1600BW/40-AAE-HN 100 - 1600 40 633 208 635 PDF
CVLA-1600BW/40-AAE-HNR 100 - 1600 40 633 208 639 PDF
CVLA-1600BW/40-ABE-HN 100 - 1600 40 633 208 635 PDF
CVLA-1600BW/40-ABE-HNR 100 - 1600 40 633 208 639 PDF
CVLA-2000AA/35-AAB-P 100 - 2000 35 211 208 372 PDF
CVLA-2000AA/35-ABB-P 100 - 2000 35 211 208 372 PDF
CVLA-2000AC/35-AAB 100 - 2000 35 136 208 372 PDF
CVLA-2000AC/35-AAB-F 65 - 2000 35 136 208 372 PDF
CVLA-2000AC/35-ABB 100 - 2000 35 136 208 372 PDF