SVP Broadcast Microwave Bandpass Filter 3400 MHz User Manual

SVP Broadcast Microwave Bandpass Filter 3400 MHz User Manual

Dear Customer,

We would like to thank you for choosing this item and welcome you to the SVP’s growing family of products.
We are sure that the addition of this item to your existing installation will cause you nothing but satisfaction.
Please read these instructions carefully, and keep them at hand in case you have to refer to them.

Introduction

SVP provides a wide range of RF and microwave filters for different frequency bands with a wide variety of features.
Band-pass filters can be used either in the transmitter or in the receiver site.

In the transmitter site, when several signals are multiplexed in frequency, after the power amplifier, the use of band-pass filters is necessary in order to reduce the noise in adjacent channels and that the transmitted signals meet the recommendations for noise emissions in nearby channels.

In the receiver site, band pass filters are used in order to limit the band where the receiver will operate. These band-pass filters attenuate signals out of the band and protect the down-converters from being saturated by nearby signals.

BF-2000-2107 Band pass Filter

Description

SVP provides a wide range of RF and microwave filters for different frequency bands with a wide variety of different features.

The BF-2000-2107 band-pass filter has a bandwidth of 107 MHz. The operation frequency band is from 2.000 to 2.107 MHz. Insertion losses are very low; maximum 1 dB inside the pass band.

This filter is ideal for transmitting COFDM signals which have been multiplexed in frequency and afterwards amplified. So the filter should be installed at the output of the amplifier.

This filter is also commonly used in receiver sites where high RF signals are present. Also it highly attenuates Wi-Fi signals present in the 2,4 GHz band, so it prevents the down-converter from being saturated by nearby high power RF signals. This filter reduces the reception bandwidth but still is wide enough for the cases that a different frequency has to be used because a transmitted signal is interfered.

Technical Features

The table below shows the main features of the BF-2000-2107 filter:

BF-2000-2700 Bandpass Filter

Description

The BF-2000-2700 band-pass filter has a bandwidth of 700 MHz. The operation frequency band is from 2.000 to 2.700 MHz. Insertion losses are  very low; maximum 0,3 dB inside the pass band.

This filter is ideal for transmitting COFDM signals which have been multiplexed in frequency and afterwards amplified. So the filter should be installed at the output of the amplifier.

This filter is also commonly used in receiver sites where high RF signals are present. Also it highly attenuates Wi-Fi signals present in the 2,4 GHz band, so it prevents the down-converter from being saturated by nearby high power RF signals. This filter reduces the reception bandwidth but still is wide enough for the cases that a different frequency has to be used because a transmitted signal is interfered.

Figure 3.1 BF-2000-2700 Bandpass filter

Technical Features

The table below shows the main features of the BF-2000-2700 filter:

The figure below shows the performance of the BF-2000-2700 filter. S11  and S21 parameters have been measured.

Figure 3.2 S11 and S21 parameter measurement BF-2000-2700 filter

Mechanical Characteristics

The figure below shows mechanical information of the BF-2000-2700filter

Figure 3.3 BF-2000-2700 Mechanical Layout

BF-2010-2090 Bandpass filter

Description

The BF-2010-2090 band-pass filter has a bandwidth of 80 MHz. The operation frequency band is from 2.010 to 2.090 MHz. Insertion losses are very low; maximum 1 dB inside the pass band.

This filter is ideal for transmitting COFDM signals which have been multiplexed in frequency and afterwards amplified. So the filter should be installed at the output of the amplifier.

This filter is also commonly used in receiver sites where high RF signals are present. Also it highly attenuates Wi-Fi signals present in the 2,4 GHz band, so it prevents the down-converter from being saturated by nearby high power RF signals. This filter reduces the reception bandwidth but still is wide enough for the cases that a different frequency has to be used because a transmitted signal is interfered.

Technical Features

The table below shows the main features of the BF-2010-2090 filter:

BF-2023-2111 Bandpass Filter

Description

The BF-2023-2111 band-pass filter has a bandwidth of 88 MHz. The operation frequency band is from 2.023 to 2.111 MHz. Insertion losses are very low; maximum 1 dB inside the pass band.

This filter is ideal for transmitting COFDM signals which have been multiplexed in frequency and afterwards amplified. So the filter should be installed at the output of the amplifier.

This filter is also commonly used in receiver sites where high RF signals are present. Also it highly attenuates Wi-Fi signals present in the 2,4 GHz band, so it prevents the down-converter from being saturated by nearby high power RF signals. This filter reduces the reception bandwidth but still is wide enough for the cases that a different frequency has to be used because a transmitted signal is interfered.

Technical Features

The table below shows the main features of the BF-2023-2111 filter:

BF-2083-2107 Bandpass Filter

Description

The BF-2083-2107 band-pass filter has a bandwidth of 24 MHz. The operation frequency band is from 2.083 to 2.107 MHz. Insertion losses are very low; maximum 1 dB inside the pass band.

This filter is ideal for transmitting COFDM signals which have been multiplexed in frequency and afterwards amplified. So the filter should be installed at the output of the amplifier.

This filter is also commonly used in receiver sites where high RF signals are present. Also it highly attenuates Wi-Fi signals present in the 2,4 GHz band, so it prevents the down-converter from being saturated by nearby high power RF signals. This filter reduces the reception bandwidth but still is wide enough for the cases that a different frequency has to be used because a transmitted signal is interfered.

Technical Features

The table below shows the main features of the BF-2083-2107 filter:

Table 6.1 BF-2083-2107

BF-2100-2700 Bandpass Filter

Description

The BF-2100-2700 band-pass filter has a bandwidth of 600 MHz. The operation frequency band is from 2.100 to 2.700 MHz. Insertion losses are very low; maximum 0,3 dB inside the pass band.

This filter is ideal for transmitting COFDM signals which have been multiplexed in frequency and afterwards amplified. So the filter should be installed at the output of the amplifier.

This filter is also commonly used in receiver sites where high RF signals are present. Also it highly attenuates Wi-Fi signals present in the 2,4 GHz band, so it prevents the down-converter from being saturated by nearby high power RF signals. This filter reduces the reception bandwidth but still is wide enough for the cases that a different frequency has to be used because a transmitted signal is interfered.

Figure 7.1 BF-2100-2700 Bandpass filter

Technical Characteristics

The table below shows main features of the BF-2100-2700 filter:

Mechanical Characteristics

The figure below shows mechanical information of the BF-2100-2700 filter:

Figure 7.2 BF-2100-2700 Mechanical Layout

BF-2200-2600 Bandpass Filter

Description

The BF-2200-2600 band-pass filter has a bandwidth of 400 MHz. The operation frequency band is from 2.200 to 2.600 MHz. Insertion losses are very low; maximum 0,3 dB inside the pass band.

This filter is ideal for transmitting COFDM signals which have been multiplexed in frequency and afterwards amplified. So the filter should be installed at the output of the amplifier.

This filter is also commonly used in receiver sites where high RF signals are present. Also it highly attenuates Wi-Fi signals present in the 2,4 GHz band, so it prevents the down-converter from being saturated by nearby high power RF signals. This filter reduces the reception bandwidth but still is wide enough for the cases that a different frequency has to be used because a transmitted signal is interfered.

Figure 8.1 BF-2200-2600 Bandpass Filter

Technical Characteristics

The table below shows main features of the BF-2200-2600 filter:

Mechanical Characteristics

The figure below shows mechanical information of the BF-2200-2600 filter:

Figure 8.2 BF-2200-2600 Bandpass Filter

BF-2210-2386 Bandpass Filter

Description

The BF-2210-2386 band-pass filter has a bandwidth of 176 MHz. The operation frequency band is from 2.210 to 2.386 MHz. Insertion losses are very low; maximum 1 dB inside the pass band.

This filter is ideal for transmitting COFDM signals which have been multiplexed in frequency and afterwards amplified. So the filter should be installed at the output of the amplifier.

This filter is also commonly used in receiver sites where high RF signals are present. Also it highly attenuates Wi-Fi signals present in the 2,4 GHz band, so it prevents the down-converter from being saturated by nearby high power RF signals. This filter reduces the reception bandwidth but still is wide enough for the cases that a different frequency has to be used because a transmitted signal is interfered.

Technical Features

The table below shows the main features of the BF-2210-2386 filter:

BF-2225-2330 Bandpass Filter

Description

The BF-2225-2330 band-pass filter has a bandwidth of 105 MHz. The operation frequency band is from 2.225 to 2.330 MHz. Insertion losses are very low; maximum 1 dB inside the pass band.

This filter is ideal for transmitting COFDM signals which have been multiplexed in frequency and afterwards amplified. So the filter should be installed at the output of the amplifier.

This filter is also commonly used in receiver sites where high RF signals are present. Also it highly attenuates Wi-Fi signals present in the 2,4 GHz band, so it prevents the down-converter from being saturated by nearby high power RF signals. This filter reduces the reception bandwidth but still is wide enough for the cases that a different frequency has to be used because a transmitted signal is interfered.

Technical Features

The table below shows the main features of the BF-2225-2330 filter:

BF-2260-2540 Bandpass Filter

Description

The BF-2260-2540 band-pass filter has a bandwidth of 280 MHz. The operation frequency band is from 2.260 to 2.540 MHz. Insertion losses are very low; maximum 1 dB inside the pass band.

This filter is ideal for transmitting COFDM signals which have been multiplexed in frequency and afterwards amplified. So the filter should be installed at the output of the amplifier.

This filter is also commonly used in receiver sites where high RF signals are present. Also it highly attenuates Wi-Fi signals present in the 2,4 GHz band, so it prevents the down-converter from being saturated by nearby high power RF signals. This filter reduces the reception bandwidth but still is wide enough for the cases that a different frequency has to be used because a transmitted signal is interfered.

Figure 11.1 BF-2260-2540 bandpass filter

Technical Features

The table below shows the main features of the BF-2260-2540 filter:

Mechanical Characteristics

The figure below shows mechanical information of the BF-2260-2540 filter:

Figure 11.2 BF-2260-2540. Mechanical layout

BF-2304-2376 Bandpass Filter

Description

The BF-2304-2376 band-pass filter has a bandwidth of 72 MHz. The operation frequency band is from 2.304 to 2.376 MHz. Insertion losses are very low; maximum 0,6 dB inside the pass band.

This filter is ideal for transmitting COFDM signals which have been multiplexed in frequency and afterwards amplified. So the filter should be installed at the output of the amplifier.

This filter is also commonly used in receiver sites where high RF signals are present. Also it highly attenuates Wi-Fi signals present in the 2,4 GHz band, so it prevents the down-converter from being saturated by nearby high power RF signals. This filter reduces the reception bandwidth but still is wide enough for the cases that a different frequency has to be used because a transmitted signal is interfered.

Figure 12.1 BF-2304-2376 bandpass filter

Technical Features

The table below shows the main features of the BF-2304-2376 filter:

The figure below shows the performance of the BF-2304-2376 filter. S11 and S21 parameters have been measured.

Figure 12.2 S11 and S21 parameter measurement in BF-2304-2376 filter

Mechanical characteristics

The figure below shows mechanical information of the BF-2304-2376 filter

Figure 12.3 Filter BF-2304-2376

BF-2330-2610 Bandpass Filter

Description

The BF-2330-2610 band-pass filter has a bandwidth of 280 MHz. The operation frequency band is from 2.330 to 2.610 MHz. Insertion losses are very low; maximum 1 dB inside the pass band.

This filter is ideal for transmitting COFDM signals which have been multiplexed in frequency and afterwards amplified. So the filter should be installed at the output of the amplifier.

This filter is also commonly used in receiver sites where high RF signals are present. Also it highly attenuates Wi-Fi signals present in the 2,4 GHz band, so it prevents the down-converter from being saturated by nearby high power RF signals. This filter reduces the reception bandwidth but still is wide enough for the cases that a different frequency has to be used because a transmitted signal is interfered.

Technical Features

The table below shows the main features of the BF-2330-2610 filter:

BF-3400-4000 Bandpass Filter

Description

The BF-3400-4000 band-pass filter has a bandwidth of 600 MHz. The operation frequency band is from 3.400 to 4.000 MHz. Insertion losses are very low; maximum 0,2 dB inside the pass band.

This filter is ideal for transmitting COFDM signals which have been multiplexed in frequency and afterwards amplified. So the filter should be installed at the output of the amplifier.

This filter is also commonly used in receiver sites where high RF signals are present. Also it highly attenuates Wi-Fi signals present in the 2,4 GHz band, so it prevents the down-converter from being saturated by nearby high power RF signals. This filter reduces the reception bandwidth but still is wide enough for the cases that a different frequency has to be used because a transmitted signal is interfered.

Figure 14.1 BF-3400-4000 Bandpass filter

Technical Characteristics

The table below shows the main features of the BF-3400-4000 filter:

The figure below shows the performance of the BF-3400-4000 filter. S11 and S21 parameters have been measured.

Figure 14.2 S11 and S21 parameter measurement for the BF-3400-4000 filter

Mechanical Characteristics

The figure below shows mechanical information of the BF-3400-4000 filter

Figure 14.3 BF-3400-4000 Mechanical Layout

BF-4400-5100 Bandpass Filter

Description

The BF-4400-5100 band-pass filter has a bandwidth of 350 MHz. The operation frequency band is from 4.400 to 5.100 MHz. Insertion losses are very low; maximum 1 dB inside the pass band.

This filter is ideal for transmitting COFDM signals which have been multiplexed in frequency and afterwards amplified. So the filter should be installed at the output of the amplifier.

This filter is also commonly used in receiver sites where high RF signals are present. Also it highly attenuates Wi-Fi signals present in the 2,4 GHz band, so it prevents the down-converter from being saturated by nearby high power RF signals. This filter reduces the reception bandwidth but still is wide enough for the cases that a different frequency has to be used because a transmitted signal is interfered.

Technical Features

The table below shows the main features of the BF-4400-5100 filter:

BF-6800-7300 Bandpass Filter

Description

The BF-6800-7300 band-pass filter has a bandwidth of 500 MHz. The operation frequency band is from 6.800 to 7.300 MHz. Insertion losses are very low; maximum 1 dB inside the pass band.

This filter is ideal for transmitting COFDM signals which have been multiplexed in frequency and afterwards amplified. So the filter should be installed at the output of the amplifier.

This filter is also commonly used in receiver sites where high RF signals are present. Also it highly attenuates Wi-Fi signals present in the 2,4 GHz band, so it prevents the down-converter from being saturated by nearby high power RF signals. This filter reduces the reception bandwidth but still is wide enough for the cases that a different frequency has to be used because a transmitted signal is interfered.

Technical Features

The table below shows the main features of the BF-6800-7300 filter:

BF-10000-10500 Bandpass Filter

Description

The BF-10000-10500 band-pass filter has a bandwidth of 500 MHz. The operation frequency band is from 10.000 to 10.500 MHz. Insertion losses are very low; maximum 0,5 dB inside the pass band.

This filter is ideal for transmitting COFDM signals which have been multiplexed in frequency and afterwards amplified. So the filter should be installed at the output of the amplifier.

This filter is also commonly used in receiver sites where high RF signals are present. Also it highly attenuates Wi-Fi signals present in the 2,4 GHz band, so it prevents the down-converter from being saturated by nearby high power RF signals. This filter reduces the reception bandwidth but still is wide enough for the cases that a different frequency has to be used because a transmitted signal is interfered.

Technical Features

The table below shows the main features of the BF-10000-10500 filter:

BF-10200-10600 Bandpass Filter

Description

The BF-10200-10600 band-pass filter has a bandwidth of 400 MHz. The operation frequency band is from 10.200 to 10.600 MHz. Insertion losses are very low; maximum 1 dB inside the pass band.

This filter is ideal for transmitting COFDM signals which have been multiplexed in frequency and afterwards amplified. So the filter should be installed at the output of the amplifier.

This filter is also commonly used in receiver sites where high RF signals are present. Also it highly attenuates Wi-Fi signals present in the 2,4 GHz band, so it prevents the down-converter from being saturated by nearby high power RF signals. This filter reduces the reception bandwidth but still is wide enough for the cases that a different frequency has to be used because a transmitted signal is interfered.

Technical Features

The table below shows the main features of the BF-10200-10600 filter:

Table 18.1 BF-10200-10600

End note

At SVP Broadcast Microwave S.L. we make a constant effort to continuously improve our equipments and models. For that reason, please understand that there may be some changes in design, equipment and technology.

Therefore, we cannot be held liable for the data, figures and descriptions given in this datasheet.
The datasheet’s text, figures and standards are based on the information we had when the datasheet was published.
Reprinting, reproduction and translation of all or part of this datasheet is forbidden without written permission by SVP Broadcast Microwave S.L. SVP Broadcast Microwave S.L. reserves all copyrights. All right to make changes are reserved.

SVP Broadcast Microwave reserves the right to make changes to this datasheet and the device without prior notice.

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Vizcaya – Spain
Tel: +34 94 620 3722
Fax: +34 94 620 4356
info@svpbm.com
www.svpbm.com

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