AM-1310 RF Automatic Matching Device Introduction: The AM series digital automatic matcher adopts the current advanced digital network matching platform and utilizes our mature professional technical strength. The AM automatic matcher quickly, accurately, and repetitively matches the complex impedance of the plasma with your desired tuning range. Compared with traditional analog tuning methods, digital tuning algorithms and stepper motor drives can generate faster, more accurate, and highly repetitive responses that always match the impedance points of the load. Improve productivity, increase output, and reduce production costs Features: 1. Long term stable process time guarantee 2. Easy to install and operate 3. Fast, accurate, and repeatable impedance matching 4. The best and directly applicable features meet the needs of various application fields 5. Multi power and frequency range Technical parameters: Model: AM-1310 Frequency: 13.56MHz ± 0.005% (27.12MHz \ 40.68MHz) Maximum transmission power: 1000w Reflection power (at maximum power):<3w Maximum load current: 30ARMS Maximum load voltage: 7500VRMS Transmission efficiency:>90% Matching time: 1-3 seconds Main capacitor: Double vacuum capacitor Matchable impedance real part range: 0~80 Ω Matchable impedance imaginary part range: - j200~+j200 RF output connector: 50 Ω, L29, copper strip output, customizable Control interface: automatic and manual control window Cooling method: air cooling Power supply voltage: single-phase AC (187V-253V) frequency 50/60Hz Weight: 7.5KG Size: 430mm (D) x 220mm (W) x 130mm (H) or customizable
Introduction: The AM series digital automatic matcher adopts the current advanced digital network matching platform and utilizes our mature professional technical strength. The AM automatic matcher quickly, accurately, and repetitively matches the complex impedance of the plasma with your desired tuning range. Compared with traditional analog tuning methods, digital tuning algorithms and stepper motor drives can generate faster, more accurate, and highly repetitive responses that always match the impedance points of the load. Improve productivity, increase output, and reduce production costs
