Cyclopedia of Telephony & Telegraphy Vol. 1 eBook

This eBook from the Gutenberg Project consists of approximately 436 pages of information about Cyclopedia of Telephony & Telegraphy Vol. 1.

Cyclopedia of Telephony & Telegraphy Vol. 1 eBook

This eBook from the Gutenberg Project consists of approximately 436 pages of information about Cyclopedia of Telephony & Telegraphy Vol. 1.

Electrodes.  The electrode plates of nearly all modern transmitters are of specially treated carbon.  These are first copper-plated and soldered to their brass supporting disks.  After this they are turned and ground so as to be truly circular in form and to present absolutely flat faces toward each other.  These faces are then highly polished and the utmost effort is made to keep them absolutely clean.  Great pains are taken to remove from the pores of the carbon, as well as from the surface, all of the acids or other chemicals that may have entered them during the process of electroplating them or of soldering them to the brass supporting disk.  That the two electrodes, when mounted in a transmitter, should be parallel with each other, is an item of great importance as will be pointed out later.

In a few cases, as previously stated, gold or platinum has been substituted for the carbon electrodes in transmitters.  These are capable of giving good results when used in connection with the proper form of granular carbon, but, on the whole, the tendency has been to abandon all forms of electrode material except carbon, and its use is now well nigh universal.

Preparation of Carbon.  The granular carbon is prepared from carefully selected anthracite coal, which is specially treated by roasting or “re-carbonizing” and is then crushed to approximately the proper fineness.  The crushed carbon is then screened with extreme care to eliminate all dust and to retain only granules of uniform size.

Packing.  In the earlier forms of granular-carbon transmitters a great deal of trouble was experienced due to the so-called packing of the instrument.  This, as the term indicates, was a trouble due to the tendency of the carbon granules to settle into a compact mass and thus not respond to the variable pressure.  This was sometimes due to the presence of moisture in the electrode chamber; sometimes to the employment of granules of varying sizes, so that they would finally arrange themselves under the vibration of the diaphragm into a fairly compact mass; or sometimes, and more frequently, to the granules in some way wedging the two electrodes apart and holding them at a greater distance from each other than their normal distance.  The trouble due to moisture has been entirely eliminated by so sealing the granule chambers as to prevent the entrance of moisture.  The trouble due to the lack of uniformity in size of the granules has been entirely eliminated by making them all of one size and by making them of sufficient hardness so that they would not break up into granules of smaller size.  The trouble due to the settling of the granules and wedging the electrodes apart has been practically eliminated in well-designed instruments, by great mechanical nicety in manufacture.

Almost any transmitter may be packed by drawing the diaphragm forward so as to widely separate the electrodes.  This allows the granules to settle to a lower level than they normally occupy and when the diaphragm is released and attempts to resume its normal position it is prevented from doing so by the mass of granules between.  Transmitters of the early types could be packed by placing the lips against the mouthpiece and drawing in the breath.  The slots now provided at the base of standard mouthpieces effectually prevent this.

Copyrights
Project Gutenberg
Cyclopedia of Telephony & Telegraphy Vol. 1 from Project Gutenberg. Public domain.