Skip to main content

FM transmitter signal booster circuit Diagram

FM transmitter signal booster circuit Diagram



This signal Amplifier (booster) work only FM band. Important notice you can you big antana and antana place teddies on your home. so your signal more than area of coverage this booster more than 10 km range. You can watch the video go my youtube channel.


This circuit Diagram work frequency boost up low amplitude to high amplitude.
You can not use MW and SW transmitter because this design for FM circuit only.
Using transistor - BC547. You can use any of MHz frequency range transistor examples (BC548, 2N222 extra you can search google).
Using capacitor 1uF ceramic capacitor. You can also use 1nF, 10nF, 0.001uF. capacitor place transistor or inductor maintain distance 1CM. You cannot maintain distance than your frequency more than noise added your signal. Using resistance 220K ohms and 10K ohms. Using incuctor made than use you screwdriver throttle 10 turn 20 SWG wire. Using powe supply max volt apply 15V but I am using just 12V. FM transmitter output antana connect on booster input path or booster output connection connect External antana.
Definition of booster. : one that boosts: such as. a : an enthusiastic supporter. b : an auxiliary device for increasing force, power, pressure, or effectiveness. c slang : shoplifter.
Synonyms: friend, relay transmitter, showman, promoter, supporter, booster shot, shoplifter, admirer, champion, impresario, booster rocket, booster unit, takeoff rocket, relay link, plugger, protagonist, booster station, recall dose, takeoff booster, relay station, booster amplifier, booster dose, lifter.
Boosters, referred to by the NCAA as “representatives of the institution's athletic interests,” include anyone who has: Provided a donation in order to obtain season tickets for any sport at the university. Participated in or has been a member of an organization promoting the university's athletics programs.

Comments

Popular posts from this blog

Fm transmitter circuit

Fm transmitter circuit Power supply   :-   Using power supply stable DC voltage 2 V to 3.7 V max. You can only use battery because battery is perfect for this circuit battery output doesn't any noise. Components  :- Transistor BC 547 , Resistance 100 ohm , 4.7 K ohm .   Capacitor 1nF, 47pF, 22pF.   Inductor 1uH. Condenser mic any . Resistance  :-   Using resistance 100 ohm +-5% changing 1/3 watt, 4.7 K ohm +-5% changing 1/3 watt. Capacitor  :-   1nF this capacitor number 102 non-polar, 22pF this capacitor number 22 non-polar, 47pF this capacitor number 47 non-polar. Inductor  :-   This part important part for any transmitter circuit, 1uH 5Turn 24SWG. Transistor  :-   BC 547  is an NPN Bipolar junction transistor. It is commonly  used  to amplify current. A small current at its base controls a larger current at collector & emitter terminals.  It has a transition...

Automatic home appliances

 Automatic Home Appliances Remote control electrical appliances  Setting up  IR sensor  connection to Atmega 328P is very simple. Beside VCC and GND  pin , the  sensor  has only one output  pin  that should be connected to one of digital  pins  of the Atmega 328P. HC - 05  has red LED which indicates connection status, whether the  Bluetooth  is connected or not. Before connecting to  HC - 05 module  this red LED blinks continuously in a periodic manner. When it gets connected to any other  Bluetooth  device, its blinking slows down to two seconds. This  module works  on 3.3 V - 6V but you can use only 5V DC. this module use any Serial  AMS1117  is a popular SMD package 3-pin voltage regulator that is available in many models for fixed and adjustable voltage requirements. The IC can deliver a maximum current of 1A and the output voltage can vary from 1.5V to 5V. ...

FM transmitter using crystal

FM transmitter using crystal   Power supply   :-   Using power supply stable DC voltage 2 V to 3.7 V max. You can only use battery because battery is perfect for this circuit battery output doesn't any noise. Components  :-  Transistor BC 547 , Resistance 100 ohm, 4.7K ohm.   Capacitor 1nF, 47pF,              22pF.   Inductor 1uH. Condenser mic any .       Resistance  :-   Using resistance 100 ohm +-5% changing 1/3 watt, 4.7 K ohm +-5% changing 1/3 watt. Video link -  https://youtu.be/aV7K2NHrHTM 3 Volt Circuit Diagram Capacitor  :-   1uF this capacitor positive pin connect 4.7K ohm resistance one pin and another pin connect 2K ohm resistance one number pin. 5 Volt Circuit Diagram This Circuit Transmitter range 0.3 Kilometre (300 Metre) to 0.5 kilometre (500 Metre) without any obstacle otherwise range 0.2 Kilometre (200 metre) anywhere. It's a spy device. D...