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Showing posts with label Preamplifier antenna. Show all posts
Showing posts with label Preamplifier antenna. Show all posts

What is Filter Circuit ?

filter is a circuit that is capable of passing a specific range of frequencies while block-ing other frequencies. The four major types of filters include low-pass filters, high-pass filters, bandpass filters,and notch filters(or band-reject filters). A low-pass filter passes low-frequency components of an input signal, while a high-pass filter passes high-frequency components. A bandpass filter passes a narrow range of frequencies centered around the filter’s resonant frequency, while a notch filter passes all frequencies except those within a narrow band centered around the filter’s resonant frequency

 Filters have many practical applications in electronics. For example, within a dc power supply, filters can be used to eliminate unwanted high-frequency noise present within the ac line voltage, and they act to flatten out pulsing dc voltages generated by the supply’s rectifier section. 

In radio communications, filters make it possible for a radio receiver to provide the listener with only the desired signal while rejecting all others. 

 Likewise, filters allow a radio transmitter to generate only one signal while attenuating other signals that might interfere with different radio transmitters’ signals. 

In audio electronics, filter networks called crossover networks are usedt o divert low audio signals to woofers, middle-range frequencies to mid range speakers, and high frequencies to tweeters. 

The list of filter applications is extensive.There are two filter types covered in this chapter, namely, passive filter sand active filters. 

Passive filters are designed using passive elements (e.g., resistors, capacitors,and inductors) and are most responsive to frequencies between around 100 Hz and 300 MHz. 

The lower frequency limit results from the fact that at low frequencies the capacitance and inductance values become exceedingly large, meaning prohibitively large components are needed. 

The upper frequency limit results from the fact that at high frequencies parasitic capacitances and inductances wreak havoc.) 

When designing passive filters with very steep attenuation falloff responses, the number of inductor and capacitor sections increases. 

As more sections are added to get the desired response, the greater is the chance for signal loss to occur. Also, source and load impedances must be taken into consideration when designing passive filters. 

Active filters, unlike passive filters, are constructed from op amps, resistors, and capacitors—no inductors are needed. Active filters are capable of handling very low frequency signals (approaching 0 Hz), and they can provide voltage gain if needed(unlike passive filters). 

Active filters can be designed to offer comparable performance to LC filters, and they are typically easier to make, less finicky, and can be designed without the need for large-sized components. 

 Also, with active filters, a desired input and output impedance can be provided that is independent of frequency. One major drawback with active filters is a relatively limited high-frequency range. 

Above around 100 kHz or so, active filters can become unreliable (a result ofthe op amp’s bandwidth and slew-rate requirements). 

At radio frequencies, it is best to use a passive filter

(from Book :  Practical Electronics for Inventors by : Paul Scherz)

Best Preampfilier for Indoor Outdoor Antenna

Why do I need Pre Amplifier ?

This is common question shows up to you. 

When you TV reception interfere with near FM station or your TV can not pick up several channels. 

These common problems solved with the preamplifier installed.  

Preamplifier helps pick up channels that your non-amplified antenna alone may not be able to pick up. 

Additionally, the preamplifier minimizes pixelization and drop-outs.

What We should look at Preamplifier , before we buy it ? 

These common ideal question and answer must applied to the preAmplifier that you choose. 

Ask these

1.  Does The preamplifier work with any antenna ?  The preamplifier that works with any passive/non-amplified antenna is better than the specific one

2. Does The preamplifier work with VHF & UHF signalsTypical gain for VHF is 20 dB (lo) and 15 dB (hi) and for UHF is 18 dB.

3. Does the preamplifier have an FM trap ? The preamplifier should have built-in FM trap that attenuates FM signal so that it does not interfere with digital TV channels. 

4. What is the noise figure of the preamplifier ? The preamplifier has a typical noise figure of 1 dB for UHF and 3 dB for VHF. 

5. Can I use a splitter with the preamplifier ? The preamplifier can be used to distribute signal to multiple TVs. 

Based on the spec I have mention above, I pick it for you 3 the best preamplifier for indoor outdoor antenna that serve in the market. 


Best Preamplifier Antenna


1. Winegard LNA-200 Bost XT

  • Installs on any outdoor non-amplified TV antenna
  • Bandpass filters remove interfering RF signals
  • Maximum Gain (typical): 18 dB
  • Noise Figure (typical): 1dB
  • Power: +5V at 130mA

2. Channel Master Pre-Amplifier with LTE Filter



  • Can Be Installed Indoor, Outdoor or in Attic Due to its Compact Size and Heavy-Duty Weatherproof Housing
  • Blocks Interference From 3G, 4G, 5G Smartphones and Transmitters with EMI & FM Out of Band Filtering (Does Not Pass FM Radio Signals to Avoid Over Amplification Issues)
  • Improves Signal Quality, Decreases Pixilation and May Increase Number of Channels
  • Button Adjustable Amplification (17 dB/30 dB) with Flexible USB Powering Options

3. RCA Preamplifier for Outdoor Antenna
  • Switchable FM trap reduces interference from FM frequencies
  • Preamplifier for outdoor antennas extends range in low signal strength areas
  • RCA's advanced SmartBoost technology amplifies weak signals to deliver the most channels possible
Another preamplifier for your alternative with almost the same specs are Winegard LNA200S, Channel Master Titan 

MastHead PreAmp 80 MHz-890 Mhz for AM, FM, VHF, UHF Using FET, Elektor Project

Using JFET Dual FET E430 from Siliconix consist of  Dual E310 FET , we can construct MastHead PreAmp for AM, FM, VHF, UHF Receiver Radio and TV. From Elektor Magazine in 1976 circuit


Illustration Construction:


Connection To Receiver 

Connection To Receiver