PET3026CLDrop-in equivalent of RS 3026 CL
Forced Air Cooled Triode For Industrial RF Heating
Manufactured in India, in a world-class facility equipped with high quality machinery, materials and components sourced from reputed suppliers in America, Europe and Japan. Data Sheet of RS3026CL / PET3026CL |
The RS3026CL is a RF power triode designed for industrial applications. This tube uses a coaxial design and metal-ceramic technology. This triode may be operated in CW or pulse modes. For operation in pulse mode, the parameters depend on each equipment characteristics. Contact us for specific information. The RS3026CL is a water cooled triode.
Electrical characteristics of RS3026CL
Cathode Filament . thoriated tungsten
Filament voltage (+ 5 %, - 10 %) 7 V
Filament current . 115 A
Surge current (maximum) 345 A
Capacitances:
• Grid to Anode . . 26 pF
• Grid to Cathode . . 59 pF
• Cathode to Anode (1) . 1.5 pF
Amplification factor . . 20 Approx.
Transconductance (Va: 3 kV, Ia: 2 A) 33 mA/V approx.
(1) Measured with a 30 cm diameter shielding plate in the grid terminal plane.
Mechanical characteristics of RS3026CL
Operating position . vertical, anode up or down
Weight . . . 11 kg (24.2 lbs) approx.
Dimensions . . see outline drawing
Maximum ratings of RS3026CL
Frequency . . 120 MHz
Anode voltage:
• Up to 40 MHz . 12 kV
• From 40 to 80 MHz . 11 kV
• From 80 to 120 MHz . 9 kV
Control grid voltage . - 1.5 kV
Control grid current (F < 40 MHz)
• At full load, CW . . 1.1 A
• At no load, CW . . 1.4 A
Peak cathode current, CW 30 A
Anode dissipation . 15 kW
Grid dissipation:
• Up to 40 MHz . . 550 W
• From 40 to 80 MHz . 450 W
• From 80 to 120 MHz . 350 W
Grid resistance (at blocked tube) 15 KΩ
Cooling of RS3026CL
Anode cooling . . . forced air
Cooling water flow and pressure gradient . see cooling curves
Inlet air temperature . . 25 °C typical
Temperature at any point on tube envelope . 220 °C maximum
Typical Operation of RS3026CL (Class C RF oscillator for industrial applications)
Frequency . . <40 <40 MHz
Anode voltage . . 10 8 kV
Control grid bias . -800 -650 V
RF control grid voltage . 1.2 1.05 kV
Anode current . 4.1 4.2 A
Control Grid current . 700 760 mA
Anode input power . 41 33.6 kW
Anode output power . 32 25 kW
Anode dissipation . 8.2 7.8 kW
Control Grid dissipation. . 240 260 W
Grid resistance . . 1.15 0.86 kΩ
Feedback ratio . . 13.5 15 %
Oscillator efficiency . 78 74.5 %
Electrical characteristics of RS3026CL
Cathode Filament . thoriated tungsten
Filament voltage (+ 5 %, - 10 %) 7 V
Filament current . 115 A
Surge current (maximum) 345 A
Capacitances:
• Grid to Anode . . 26 pF
• Grid to Cathode . . 59 pF
• Cathode to Anode (1) . 1.5 pF
Amplification factor . . 20 Approx.
Transconductance (Va: 3 kV, Ia: 2 A) 33 mA/V approx.
(1) Measured with a 30 cm diameter shielding plate in the grid terminal plane.
Mechanical characteristics of RS3026CL
Operating position . vertical, anode up or down
Weight . . . 11 kg (24.2 lbs) approx.
Dimensions . . see outline drawing
Maximum ratings of RS3026CL
Frequency . . 120 MHz
Anode voltage:
• Up to 40 MHz . 12 kV
• From 40 to 80 MHz . 11 kV
• From 80 to 120 MHz . 9 kV
Control grid voltage . - 1.5 kV
Control grid current (F < 40 MHz)
• At full load, CW . . 1.1 A
• At no load, CW . . 1.4 A
Peak cathode current, CW 30 A
Anode dissipation . 15 kW
Grid dissipation:
• Up to 40 MHz . . 550 W
• From 40 to 80 MHz . 450 W
• From 80 to 120 MHz . 350 W
Grid resistance (at blocked tube) 15 KΩ
Cooling of RS3026CL
Anode cooling . . . forced air
Cooling water flow and pressure gradient . see cooling curves
Inlet air temperature . . 25 °C typical
Temperature at any point on tube envelope . 220 °C maximum
Typical Operation of RS3026CL (Class C RF oscillator for industrial applications)
Frequency . . <40 <40 MHz
Anode voltage . . 10 8 kV
Control grid bias . -800 -650 V
RF control grid voltage . 1.2 1.05 kV
Anode current . 4.1 4.2 A
Control Grid current . 700 760 mA
Anode input power . 41 33.6 kW
Anode output power . 32 25 kW
Anode dissipation . 8.2 7.8 kW
Control Grid dissipation. . 240 260 W
Grid resistance . . 1.15 0.86 kΩ
Feedback ratio . . 13.5 15 %
Oscillator efficiency . 78 74.5 %