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Would you like to be able to amplify a phone call so everybody can hear it? Or perhaps you'd like a way to record phone calls for record-keeping purposes. If either idea sounds good to you, then you might want to build the FM Telephone Transmitter describe in this article. It's a simple, yet ingenious device that connects in series with a phone line, "reals" power from the latter, and transmits both sides of a conversation to an FM radio tuned to between 90 and 95 MHz.
The circuit is built on a PC board that is so small it can easily be fitted inside the housing of a telephone making it an instant pseudo-speak earphone. Keep in mind, though, that it is illegal to listen to or record a telephone conversation without informing all involved parties.
There are many legitimate reasons for wanting to broadcast a telephone call to an FM receiver. For one, maybe you are calling one of those "900" information or entertainment lines, and everybody wants to hear the message. Or perhaps, when someone calls long distance, he or she doesn't have the time or can't afford to stay on long, but everybody at home still wants to hear his or her voice. Or perhaps you want to record a phone call so that you have a record of some electronic banking you did or deal you made.
Besides being small in size (5/8"), the Telephone Transmitter is also "small" in price. Only a handful of parts is needed to build the project, and everything you need (including a PCB) can be purchased as a complete kit.

Circuit Description:
The schematic diagram for the Telephone Transmitter is shown in Fig. 1.
That circuit connects in series with the either the Tip or Ring, (green or red) leads of the telephone line. Power for the circuit is full-wave bridge rectified by diodes D1 through D4.
Transistor Q1, capacitors C1 and C8, and inductor L3 form an FM oscillator that operates at a frequency of around 93 MHz. Variable capacitor C8 allows the oscillator frequency to be adjusted between 90 and 95 MHz. To move the tuning area up to the 98 to 105 MHz range, C1 must be replaced with a 10-pF capacitor.
Audio from the phone line is coupled through R3 and C2 to the base of Q1 where it frequency modulates the oscillator.
Transistor Q1, inductor L1, and capacitor C6 form a power amplifier circuit. The signal tapped off L3 in the oscillator circuit is fed to the base of transistor Q2 and the FM signal is transmitted from Q2's collector. Inductor L2 is a radio-frequency shunt that decouples power and audio from the amplifier circuit.

Construction:
The circuit is simple enough to build on perforated construction board, but the tight design of the PCBoard shown in Fig. 2 is more desirable. If you would like to use a PCB, you can either use the foil pattern provided in that figure to make your own PCB, or order a pre-etched and drilled board as part of a complete parts kit available from the source given in the Parts List.
When mounting parts to the PCB, use the parts-placement diagram shown in Fig. 3 as a guide. Begin by installing the resistors and diodes; the board is so thight that those components must be mounted vertically. The printed circuit board measures 20x50mm (1x2"), so it is small. Resistors have to be mounted 'standing up'. Depending on the size of C8, the trimmer capacitor, you may have to solder two pieces of wire to the legs of C8 and mount it that way. Either way, it is a tight space.
The next step is to install the inductors. Coils L1 and L2 are six and eight turns, respectively, of enameled copper wire. If you are winding your own coils, use approximately 22-gauge wire and a 1/8 inch drill bit as your winding form. Any enamel on the leads where the coils are to be soldered must be sanded, scraped, or burned off with a soldering iron before solder will adhere to them properly. Coil L3 is six turns of tinned copper wire in which the coils must be spread out with about 1 millimeter between each turn; none of the turns are allowed to touch each other, or the printed circuit board itself! After you are done spreading out the windings of this coil, the total width will measure approximately 3/8" (9mm). Again, this is approximately and depending on your skill. Don't worry too much about it. You can always spread it out more or squeeze it a bit when the coil is mounted.
A tap is connected between the top of the first turn of L3 and the PC board (see picture).
Go on to install the fixed capacitors and the variable one (C8). Again, C8 may need some bending. Also, this cap may have 3 legs, you can cut 1 off and leave one side+walker in place. Safes on space on the PCB.
Then you can solder the two transistors to their appropriate places.
Be certain to inspect the board for errors before connecting it to the phone line. The range of the Transmitter is less than 100 feet. That distance can be increased, however, by soldering a wire antenna (about 5 feet (150cm) of 26 gauge wire) to the collector of Q2.

Test and Tune:
Connect the Transmitter to the phone line using whatever method you prefer. Just make sure it is in SERIES.
This means cutting either the RED(Ring) or GREEN(Tip) wire and hook the circuit up in between those two wires you just cut.
Turn on a nearby FM radio and tune to a quiet spot (no station using that frequency) on the dial somewhere between 85 and 95 MHz. Pick up the phone; you should here the dial tone right away on the FM radio. If that is not the case, adjust C8 until you do hear the dial tone. First adjust C8 for the best reception, and then fine tune the radio.
Should you have trouble finding a spot on the dial that is quiet enough, remember that the tuning area can be moved up to the 98- to 105 MHz range by replacing C1 with a 10pF capacitor. Using a 22pF cap will tune the 90 to 95MHz range. These ranges are also dependible on the coil-spacing.
The picture of C8 shows a blue color which was used for the prototype. The actual color of this trimmer capacitor is red. Since the printed circuit board is so small, some components may have to be 'bend' in place, like C8 and the three coils, L1, L2, and L3. (Don't forget to scrape the coating of before soldering!). All other components mount best 'straight-up'.

Parts List:

Semiconductors:

   Q1 = NTE123A, BC107, PN100, 2N4401, BC547 NPN transistor (or equivalent)

   Q2 = 2N3563, ZTX320, or NTE108 - NPN transistor (or equivalent)

D1-D4 = 1N4148, signal diode

Resistors, 1/4W, 5% tolerance:

R1 = 100 ohm (brown-black-brown)

R2 = 33K (orange-orange-orange)

R3 = 10K (brown-black-orange)

R4 = 47K (yellow-violet-orange)

R5 = 390 ohm (orange-white-brown)

Capacitors:

   C1 = 22pF or 27pF, ceramic disc

   C2 = 0.1uF (100nF, or 104), ceramic disc

   C3 = 0.022uF, (22nF, or 223) ceramic disc, 100V type

   C4 = 0.001uF, (1nF, or 102) ceramic disc

   C5 = 5.6pF, ceramic disc

C6,C7 = 47pF, ceramic disc

   C8 = 5 to 20pF trimmer cap, (red cap)

Additional Parts and Materials:

  L1 = 15nH (nanoHenry), 6 turns of enameled copper wire (see text)

  L2 = 30nH, 8 turns of enameled copper wire (see text)

  L3 = 8nH, 6 turns of tinned copper wire (see text)

 PCB = Printed Circuit Board

Optional: miniature aligator clips

Article More Info:http://www.uoguelph.ca/~antoon/circ/FMTelTx/telephon.html