The Telephone - How It Works

National Communication Museum

9 Dec 202010:34

Summary

TLDRThis script explains the evolution of telephone technology, from basic sound wave transmission using diaphragms and strings to the invention of the telephone by Alexander Graham Bell. It describes the workings of early microphones and their transformation into modern carbon granule microphones, which convert sound into fluctuating electrical currents. These currents are transmitted via transformers to increase voltage and cover long distances. The process culminates in the connection of telephones through manual and automated exchanges, enabling global communication. The technology behind telephone systems demonstrates how sound is transformed into electrical signals and transmitted for clear, long-distance conversations.

Takeaways

😀 Sound waves consist of rapid changes in air pressure, and the frequency of these changes determines the pitch of the sound.
😀 A diaphragm is crucial for transmitting sound, as it responds to changes in air pressure and reproduces vibrations.
😀 In early telephones, sound vibrations were transmitted through a taut string connecting two diaphragms.
😀 Alexander Graham Bell’s innovation was using electricity to replicate the fluctuating sound waves, allowing speech to be transmitted over wires.
😀 Bell's first telephone system used a diaphragm attached to an iron strip near an electromagnet to generate weak currents without a battery.
😀 Modern microphones use carbon granules and a battery to generate fluctuating currents that correspond to the sound waves.
😀 The fluctuation in current caused by the microphone's diaphragm allows the sound to be transmitted as an electrical signal.
😀 The speech current carries the fluctuating part of the electric current along the telephone line, while the steady current powers the microphone.
😀 The receiver uses an electromagnet and a diaphragm to convert the electrical current back into sound waves, allowing the listener to hear the speaker.
😀 Transformers are used in modern telephone systems to step up the voltage of the fluctuating current, enabling long-distance communication.
😀 Telephone exchanges handle the connection between different telephones, using circuits and switches to facilitate communication across long distances.

Q & A

What is the basic principle behind how a telephone works?
-A telephone works by converting sound waves into fluctuating electrical currents. The sound waves cause pressure changes that are captured by a diaphragm, which then converts these fluctuations into electrical signals that can be transmitted over a wire to another telephone.
How did Alexander Graham Bell's invention of the telephone differ from earlier models?
-Bell's telephone differed from earlier models by using electrical currents to transmit sound. While earlier models used mechanical methods like vibrating diaphragms connected via a taut string, Bell's telephone used a diaphragm to create fluctuating electrical currents that could travel longer distances.
What role does the diaphragm play in the function of early and modern telephones?
-In both early and modern telephones, the diaphragm serves as the component that responds to sound waves. In early models, it vibrated to transmit sound through mechanical means, while in modern microphones, it helps modulate electrical currents by compressing and decompressing granules or interacting with electromagnets.
What is a carbon granule microphone and how does it work?
-A carbon granule microphone is a type of microphone that uses carbon granules inside a container. The diaphragm, attached to the container, compresses and decompresses the granules in response to sound waves. This changes the resistance of the granules, allowing more or less current to flow, creating an electrical signal corresponding to the sound.
How did transformers improve the functionality of telephones?
-Transformers were used to pass the fluctuating speech current while blocking the steady current. This allowed for more efficient transmission of the speech signal over long distances without wasting battery power, enabling better sound quality and reducing energy consumption in telephone systems.
Why was the early telephone system limited in its ability to transmit speech over long distances?
-The early telephone system was limited because the electrical currents generated by the diaphragm in the microphone were too weak to travel long distances. Without a battery-powered system or amplifying components like transformers, the signal would lose strength, making long-distance communication impractical.
What is the difference between the steady current and the fluctuating current in a telephone system?
-The steady current is the constant electrical flow powered by the battery, while the fluctuating current corresponds to the speech signal. The fluctuating current is generated by the sound waves affecting the microphone diaphragm and carries the audio information across the telephone line.
How does the receiver convert electrical signals back into sound?
-In the receiver, the fluctuating electrical current causes a rocking armature and diaphragm to vibrate. The diaphragm vibrates at the same frequency as the electrical signal, recreating the original sound waves, allowing the person on the other end of the line to hear the speaker's voice.
What is the role of the telephone exchange in connecting calls?
-The telephone exchange is responsible for connecting different telephones by routing calls through switches, which may be manually operated or automated. When a call is made, the exchange connects the caller to the recipient's telephone by sending a signal and completing the circuit.
Why are modern telephones able to connect over long distances with only one battery?
-Modern telephones use transformers to separate the steady current from the fluctuating speech current, allowing the telephone system to work more efficiently. This means only one battery is needed to power the system at the exchange, enabling calls over longer distances without draining the battery.