RF/Microwave Isolator/Circulators
| Part | RoHS | Manufacturer | RF or Microwave Device Type | Mounting Feature | No. of Terminals | Maximum Input Power (CW) | Maximum Voltage Standing Wave Ratio | Construction | Characteristic Impedance | Maximum Operating Temperature | Minimum Operating Temperature | Terminal Finish | Maximum Insertion Loss | Additional Features | JESD-609 Code | Minimum Operating Frequency | Maximum Operating Frequency |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
NXP Semiconductors |
3 PORT CIRCULATOR |
50.41 dBm |
2 |
.4 dB |
157.9 MHz |
163.1 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
50.41 dBm |
2 |
.4 dB |
150.9 MHz |
156.1 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
68.13 dBm |
1.25 |
MODULE |
40 Cel |
.3 dB |
2425 MHz |
2475 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
63.01 dBm |
1.2 |
MODULE |
40 Cel |
-10 Cel |
.35 dB |
470 MHz |
600 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
53.01 dBm |
1.08 |
WAVEGUIDE |
50 Cel |
0 Cel |
.2 dB |
7125 MHz |
7750 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
63.01 dBm |
1.25 |
MODULE |
40 Cel |
-10 Cel |
.35 dB |
590 MHz |
720 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
50 dBm |
1.25 |
MODULE |
60 Cel |
-10 Cel |
.5 dB |
400 MHz |
470 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
54.77 dBm |
1.25 |
MODULE |
60 Cel |
-10 Cel |
.35 dB |
400 MHz |
470 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
46.99 dBm |
1.3 |
MODULE |
60 Cel |
-10 Cel |
1.3 dB |
96 MHz |
146 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
40 dBm |
1.2 |
MODULE |
50 Cel |
-20 Cel |
.4 dB |
2100 MHz |
2500 MHz |
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|
NXP Semiconductors |
4 PORT CIRCULATOR |
53.98 dBm |
1.2 |
85 Cel |
-10 Cel |
.5 dB |
455 MHz |
475 MHz |
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|
NXP Semiconductors |
ISOLATOR |
43.01 dBm |
1.25 |
MODULE |
50 Cel |
0 Cel |
.6 dB |
153.5 MHz |
156.5 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
50.41 dBm |
MODULE |
60 Cel |
0 Cel |
.5 dB |
146 MHz |
174 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
61.76 dBm |
1.25 |
MODULE |
40 Cel |
-10 Cel |
.35 dB |
173 MHz |
204 MHz |
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|
NXP Semiconductors |
ISOLATOR |
43.01 dBm |
2 |
.5 dB |
400 MHz |
470 MHz |
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|
NXP Semiconductors |
4 PORT CIRCULATOR |
53.98 dBm |
1.25 |
30 Cel |
.8 dB |
155 MHz |
174 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
50 dBm |
1.25 |
MODULE |
60 Cel |
-10 Cel |
.5 dB |
400 MHz |
470 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
43.98 dBm |
1.25 |
MODULE |
50 Cel |
0 Cel |
.45 dB |
1700 MHz |
2700 MHz |
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|
NXP Semiconductors |
ISOLATOR |
41.76 dBm |
2 |
.4 dB |
1760 MHz |
1940 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
58.45 dBm |
1.25 |
MODULE |
65 Cel |
5 Cel |
.4 dB |
590 MHz |
720 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
58.45 dBm |
1.25 |
MODULE |
65 Cel |
5 Cel |
.4 dB |
710 MHz |
860 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
46.99 dBm |
1.25 |
MODULE |
70 Cel |
-10 Cel |
.5 dB |
2000 MHz |
4000 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
56.99 dBm |
1.25 |
MODULE |
70 Cel |
-10 Cel |
.35 dB |
470 MHz |
600 MHz |
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|
NXP Semiconductors |
ISOLATOR |
46.99 dBm |
1.25 |
MODULE |
70 Cel |
-10 Cel |
.5 dB |
2000 MHz |
4000 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
47.78 dBm |
1.15 |
.3 dB |
1450 MHz |
1500 MHz |
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|
NXP Semiconductors |
ISOLATOR |
53.62 dBm |
1.5 |
MODULE |
60 Cel |
-40 Cel |
.7 dB |
225 MHz |
400 MHz |
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|
NXP Semiconductors |
ISOLATOR |
64.77 dBm |
1.25 |
50 Cel |
.3 dB |
2425 MHz |
2475 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
43.01 dBm |
1.12 |
MODULE |
50 Cel |
0 Cel |
.35 dB |
1880 MHz |
2120 MHz |
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|
NXP Semiconductors |
ISOLATOR |
68.13 dBm |
1.25 |
50 Cel |
.3 dB |
2425 MHz |
2475 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
44.77 dBm |
1.11 |
MODULE |
55 Cel |
0 Cel |
.3 dB |
1700 MHz |
2100 MHz |
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|
NXP Semiconductors |
4 PORT CIRCULATOR |
50 dBm |
460 MHz |
470 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
43.01 dBm |
1.12 |
MODULE |
50 Cel |
0 Cel |
.35 dB |
2080 MHz |
2320 MHz |
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|
NXP Semiconductors |
ISOLATOR |
36.99 dBm |
1.3 |
MODULE |
70 Cel |
-10 Cel |
.6 dB |
12000 MHz |
18000 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
61.76 dBm |
1.25 |
MODULE |
40 Cel |
-10 Cel |
.35 dB |
200 MHz |
230 MHz |
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|
NXP Semiconductors |
ISOLATOR |
40 dBm |
1.25 |
MODULE |
70 Cel |
-10 Cel |
.5 dB |
4000 MHz |
8000 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
56.99 dBm |
1.25 |
MODULE |
60 Cel |
-10 Cel |
.35 dB |
160 MHz |
178 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
63.01 dBm |
1.25 |
MODULE |
40 Cel |
-10 Cel |
.35 dB |
600 MHz |
800 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
43.01 dBm |
1.25 |
MODULE |
55 Cel |
0 Cel |
.3 dB |
1700 MHz |
2300 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
51.76 dBm |
1.35 |
MODULE |
70 Cel |
0 Cel |
.35 dB |
270 MHz |
330 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
53.98 dBm |
1.25 |
30 Cel |
.4 dB |
160 MHz |
175 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
46.99 dBm |
1.25 |
MODULE |
60 Cel |
-10 Cel |
.5 dB |
790 MHz |
1000 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
1.35 |
MODULE |
65 Cel |
-15 Cel |
.5 dB |
1350 MHz |
2100 MHz |
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|
NXP Semiconductors |
ISOLATOR |
43.01 dBm |
1.25 |
MODULE |
50 Cel |
0 Cel |
.6 dB |
144.5 MHz |
147.5 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
46.99 dBm |
1.25 |
MODULE |
70 Cel |
-10 Cel |
.5 dB |
2000 MHz |
4000 MHz |
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|
NXP Semiconductors |
ISOLATOR |
48.45 dBm |
1.25 |
MODULE |
60 Cel |
-10 Cel |
.8 dB |
460 MHz |
468 MHz |
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|
NXP Semiconductors |
3 PORT CIRCULATOR |
46.53 dBm |
1.15 |
.35 dB |
1805 MHz |
1880 MHz |
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|
NXP Semiconductors |
ISOLATOR |
30 dBm |
1.22 |
.4 dB |
1760 MHz |
1940 MHz |
|||||||||||
|
NXP Semiconductors |
3 PORT CIRCULATOR |
53.01 dBm |
1.35 |
MODULE |
60 Cel |
0 Cel |
.4 dB |
610 MHz |
860 MHz |
RF/Microwave isolators and circulators are two types of passive electromagnetic devices that are commonly used in RF and microwave systems. These devices are used to control the flow of electromagnetic energy in a system, and are essential for isolating and protecting components from unwanted signal reflections.
An isolator is a two-port device that allows electromagnetic energy to flow in only one direction. It is typically used to protect RF and microwave components, such as amplifiers, from reflected energy and to improve the overall performance of a system. Isolators are used in a variety of applications, including radar systems, communication systems, and test and measurement equipment.
A circulator is a three-port device that allows electromagnetic energy to flow in a specific sequence through the ports. The energy entering port 1 is directed to port 2, while the energy entering port 2 is directed to port 3, and so on. Circulators are typically used to isolate and protect components from unwanted signal reflections, as well as to provide a means of combining and separating signals in a system. They are commonly used in microwave and RF communication systems, as well as in satellite and radar systems.