Part | RoHS | Manufacturer | Filter Type | Minimum No. of Sections | Maximum No. of Sections | Average Input Power | Packing Method | Mounting Type | No. of Terminals | I/O Impedance | Dimensions | Maximum Operating Temperature | Minimum Tuning Frequency | Minimum Operating Temperature | Height | Width (mm) | Maximum Insertion Loss | Bandwidth (3dB) | Voltage Standing Wave Ratio | Length | Maximum Tuning Frequency |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Analog Devices |
TUNABLE BPF |
SURFACE MOUNT |
40 |
L6.1XB6.1XH0.8 (mm)/L0.24XB0.24XH0.031 (inch) |
85 Cel |
24.2 MHz |
-40 Cel |
.8 mm |
6.1 |
17 % |
6.1 mm |
29.5 MHz |
|||||||||
Analog Devices |
TUNABLE BPF |
1 |
1 |
.501 W |
SURFACE MOUNT |
50 OHM |
85 Cel |
7000 MHz |
-40 Cel |
.8 mm |
6 |
15 % |
2.2 |
6 mm |
16000 MHz |
||||||
Analog Devices |
TUNABLE BPF |
1 |
1 |
.501 W |
TR, 5 INCH |
SURFACE MOUNT |
50 OHM |
L6.1XB6.1XH0.8 (mm)/L0.24XB0.24XH0.031 (inch) |
85 Cel |
7000 MHz |
-40 Cel |
.8 mm |
6 |
15 % |
2.2 |
6 mm |
16000 MHz |
||||
Analog Devices |
TUNABLE BPF |
1 |
1 |
.001 W |
SURFACE MOUNT |
105 Cel |
3000 MHz |
-55 Cel |
6 mm |
22.15 |
22.15 mm |
5 MHz |
|||||||||
Analog Devices |
TUNABLE BPF |
SURFACE MOUNT |
24 |
50 OHM |
L4.1XB4.1XH1.0 (mm)/L0.161XB0.161XH0.039 (inch) |
85 Cel |
8000 MHz |
-40 Cel |
1 mm |
4.1 |
22 % |
4.1 mm |
16000 MHz |
||||||||
Analog Devices |
TUNABLE BPF |
1 |
1 |
.01 W |
PANEL MOUNT |
50 OHM |
85 Cel |
10500 MHz |
-40 Cel |
.1016 mm |
1.37 |
5 dB |
20 % |
2.55 mm |
21000 MHz |
||||||
Analog Devices |
TUNABLE BPF |
1 |
1 |
.1 W |
SURFACE MOUNT |
50 OHM |
85 Cel |
40000 MHz |
-55 Cel |
.15 mm |
1.18 |
2.55 mm |
20000 MHz |
||||||||
Analog Devices |
TUNABLE BPF |
1 |
1 |
.1 W |
SURFACE MOUNT |
50 OHM |
85 Cel |
40000 MHz |
-55 Cel |
.15 mm |
1.18 |
2.55 mm |
20000 MHz |
Tunable filters are electronic filters that can be adjusted to select a specific range of frequencies, while attenuating or blocking all other frequencies. These filters are used in a variety of applications, including wireless communication systems, radar systems, and test and measurement equipment.
Tunable filters can be classified into two types based on the method of tuning:
1. Passive tunable filters - These filters use variable capacitors or inductors to change the resonance frequency of the filter. The capacitance or inductance can be adjusted using a mechanical, electrical, or magnetic method, allowing the filter to be tuned to the desired frequency range.
2. Active tunable filters - These filters use active components such as transistors or operational amplifiers to adjust the filter response. The active components can be controlled using a feedback loop or by adjusting the bias current, allowing the filter to be tuned to the desired frequency range.
One of the key advantages of tunable filters is their ability to provide selective filtering in a wide range of frequencies. Tunable filters can be adjusted to select specific frequency bands, which allows them to reject or attenuate unwanted signals and reduce interference.
Tunable filters are used in many applications that require selective filtering, including:
1. Wireless communication systems - Tunable filters are used to select specific frequency bands in cellular phones, Wi-Fi systems, and other wireless communication devices.
2. Radar systems - Tunable filters are used to select specific frequency bands in radar systems, which allows them to detect and track targets with high accuracy.
3. Test and measurement equipment - Tunable filters are used in spectrum analyzers, network analyzers, and other test and measurement equipment to analyze and characterize the frequency response of electronic devices.