The M1623 S-band Magnetron is engineered for high-performance radar systems, offering a peak output power of 30 kW and a frequency range of 3040 to 3060 MHz. This magnetron is designed to meet the rigorous demands of S-band radar systems, providing reliable and efficient power for a variety of applications, including weather monitoring, marine navigation, and defense systems.
One of the standout features of the M1623 is its high peak output power of 30 kW, ensuring excellent radar performance over long distances. It operates with a heater voltage of 6.3 V (typical), which enhances its durability and operational efficiency. The unit also features a preheat time of 180 seconds, ensuring optimal performance under varying conditions.
The M1623 magnetron is designed with flexibility in mind. It offers an absolute maximum anode current of 12 A and a maximum pulse duration of 1.0 µs. Additionally, the rate of rise of the voltage pulse is 130 kV/µs, optimizing the magnetron’s operation during high-demand periods. This combination of robust features makes the M1623 ideal for high-power radar applications that require both precision and reliability.
With its precise power output and stable frequency range, the M1623 is well-suited for industries where radar performance is critical. From defense to meteorology, this magnetron ensures the reliable transmission of radar waves to deliver accurate data for various applications.
Technical Specifications
| Parameter | Minimum | Typical | Maximum | Units |
|---|---|---|---|---|
| Heater Voltage (Note 1) | 5.7 | 6.3 | 6.9 | V |
| Heater Current | 1.1 | 1.3 | 1.4 | A |
| Preheat Time | 180 | – | – | s |
| Peak Anode Voltage (Note 2) | 7.2 | 8.0 | 8.5 | kV |
| Peak Output Power (Note 2) | 25 | 30 | – | kW |
| Frequency (Note 2) | 3040 | 3043 | 3060 | MHz |
| Peak Anode Current | 6.0 | – | 12.0 | A |
| Peak Anode Power Input | – | – | 100 | kW |
| Duty Cycle | – | – | 0.001 | – |
| Pulse Duration | 0.07 | – | 1.0 | µs |
| Rate of Rise of Voltage Pulse | – | – | 130 | kV/µs |
| Anode Temperature | – | – | 120 | °C |
| VSWR at Output Coupler | – | – | 1.5 : 1 | – |
