Products
Dual Junction Circulator
Data Sheet
| RFTYT 450MHz-12.0GHz RF Dual Junction Coaxial Circulator | ||||||
| Model | Frequency Range | B.W/Max | Forard Power (W) | Dimension W×L×Hmm | SMA Type | N Type |
| THH12060E | 80-230MHz | 30% | 150 | 120.0*60.0*25.5 | ||
| THH9050X | 300-1250MHz | 20% | 300 | 90.0*50.0*18.0 | ||
| THH7038X | 400-1850MHz | 20% | 300 | 70.0*38.0*15.0 | ||
| THH5028X | 700-4200MHz | 20% | 200 | 50.8*28.5*15.0 | ||
| THH14566K | 1.0-2.0GHz | Full | 150 | 145.2*66.0*26.0 | ||
| THH6434A | 2.0-4.0GHz | Full | 100 | 64.0*34.0*21.0 | ||
| THH5028C | 3.0-6.0GHz | Full | 100 | 50.8*28.0*14.0 | ||
| THH4223B | 4.0-8.0GHz | Full | 30 | 42.0*22.5*15.0 | ||
| THH2619C | 8.0-12.0GHz | Full | 30 | 26.0*19.0*12.7 | / | |
| RFTYT 450MHz-12.0GHz RF DualJunction Drop-in Circulator | ||||||
| Model | Frequency Range | B.W/Max | Forard Power (W) | Dimension W×L×Hmm | Connector Type | |
| WHH12060E | 80-230MHz | 30% | 150 | 120.0*60.0*25.5 | Strip line | |
| WHH9050X | 300-1250MHz | 20% | 300 | 90.0*50.0*18.0 | Strip line | |
| WHH7038X | 400-1850MHz | 20% | 300 | 70.0*38.0*15.0 | Strip line | |
| WHH5025X | 400-4000MHz | 15% | 250 | 50.8*31.7*10.0 | Strip line | |
| WHH4020X | 600-2700MHz | 15% | 100 | 40.0*20.0*8.6 | Strip line | |
| WHH14566K | 1.0-2.0GHz | Full | 150 | 145.2*66.0*26.0 | Strip line | |
| WHH6434A | 2.0-4.0GHz | Full | 100 | 64.0*34.0*21.0 | Strip line | |
| WHH5028C | 3.0-6.0GHz | Full | 100 | 50.8*28.0*14.0 | Strip line | |
| WHH4223B | 4.0-8.0GHz | Full | 30 | 42.0*22.5*15.0 | Strip line | |
| WHH2619C | 8.0-12.0GHz | Full | 30 | 26.0*19.0*12.7 | Strip line | |
Overview
One of the key characteristics of a double junction Circulator is isolation, which reflects the degree of signal isolation between the input and output ports. Usually, isolation is measured in units of (dB), and high isolation means better signal isolation. The isolation degree of a double junction circulator can usually reach several tens of decibels or more. Of course, when isolation requires greater time, a multi junction Circulator can also be used.
Another important parameter of a double junction Circulator is insertion loss, which refers to the degree of signal loss from the input port to the output port. The lower the insertion loss, the more effective the signal can be transmitted and passed through the Circulator. Double junction circulators generally have very low insertion loss, usually below a few decibels.
In addition, the double junction Circulator also has a wide frequency range and power bearing capacity. Different Circulators can be applied to different frequency bands, such as microwave (0.3 GHz -30 GHz) and millimeter wave (30 GHz -300 GHz). At the same time, it can withstand quite high power levels, ranging from a few watts to tens of watts.
The design and manufacturing of a double junction Circulator requires consideration of many factors, such as operating frequency range, isolation requirements, insertion loss, size limitations, etc. Typically, engineers use electromagnetic field simulation and optimization methods to determine appropriate structures and parameters. The process of manufacturing a double junction Circulator typically involves precision machining and assembly techniques to ensure the reliability and performance of the device.
Overall, a double junction Circulator is an important passive device widely used in microwave and millimeter wave systems to isolate and protect signals, prevent reflection and mutual interference. It has the characteristics of high isolation, low insertion loss, wide frequency range, and high power withstand capacity, which has an important impact on the performance and stability of the system. With the continuous development of wireless communication and radar technology, the demand and research on double junction Circulators will continue to expand and deepen.
