11-27-2022, 11:32 PM
Hi Nate,
First off, welcome to the Phorum and a Blessed Thanksgiving to you.
Secondly, I read the attached article and not to disparage the author, I think that there are several issues:
Most tabletop radios built from the late 1930s to the late 1960s and the end of the vacuum tube era were of the "AA5" (All American 5) design, so called because almost all radios produced in the USA in this era used this AC-DC Circuit with very few variations. Although your radio is a 6 tube, it is of this design. The big safety issue here, is that there is no power transformer. Power transformers isolate the chassis from the AC Power line. In the AA5 radio, the chassis is connected to the power line, either through a capacitor and resistor or in some cases, directly connected. The power in your house has one leg, called the "neutral" leg grounded. The other leg, the "hot" leg is at 120V (Volts) above ground potential. Now, if the chassis is connected to the neutral leg, there is no issue. If the chassis is connected to the hot leg, then the danger of shock is real. Since the power cord is not polarized (to allow only one way to connect, so the chassis is at neutral potential), you have a 50% chance of having the chassis being hot. To make matters worse, on this radio and almost all radios of the AA5 AC-DC transformerless variety, the power switch is in the "neutral" (chassis) side instead of the hot side. So if the power plug is connected in the polarity that puts the chassis on the neutral leg with the switch on, the chassis becomes hot through the tube filaments when the switch is off. a cold tube filament has a very low resistance.
Most restorers and experts on this Phorum recommend the following:
If you have good electronics skills and can read a schematic, you can modify the radio by adding an audio input. this is not horribly difficult. You need:
Perform the following:
If you are not comfortable doing this, then an alternative is a "home AM transmitter". These are low output, are legal under FCC Part 15 rules and some are easily tunable to a "dead" spot on the AM band. The easiest to use is the iAM "Talking House" transmitter. This is not cheap, they run about $170 on Amazon, eBay and other websites. There are nicer ones such as the SSTran but these are much more expensive. There are cheaper kits available, but the skills above are needed.
I hope this all helps. Keep asking questions, we are all happy to help!
Best Regards,
John "MrFixr55"
First off, welcome to the Phorum and a Blessed Thanksgiving to you.
Secondly, I read the attached article and not to disparage the author, I think that there are several issues:
- The "Mods" suggested (Disconnecting the radio's audio output from the speaker and disconnecting all connections from the volume control) will render the radio to be inoperative, destroying history.
- Safety! both your Philco and the radio in your attached article is of the transformerless AC-DC variety, as are most of the tabletop radios made between the mid to late 1930s and the end of vacuum tube radios. More on that later. These mods or repair and restoration of the radio should not be attempted unless the person doing so understands electricity and electronics, can read a schematic, has good soldering skills and a healthy respect for line level and high voltage.
- The speaker. As other folks, including experts have stated, your radio uses an "electrodynamic" Speaker. All dynamic loudspeakers work by the varying audio signal, connected to the "voice coil", attached to the cone of the speaker, attracting or repelling the steady magnetic field set up set up in the field pole piece of the speaker. In a "PM" (Permanent Magnet) dynamic speaker, the field pole is a strong permanent magnet. In the "electrodynamic speaker, the field pole is an electromagnet, powered by DC power from the radio's power supply.
The radio in the article had an electrodynamic speaker. If the author used that speaker in the video demo, then he was using the radio's power supply to power the speaker. This presents a safety issue, explained below:
Most tabletop radios built from the late 1930s to the late 1960s and the end of the vacuum tube era were of the "AA5" (All American 5) design, so called because almost all radios produced in the USA in this era used this AC-DC Circuit with very few variations. Although your radio is a 6 tube, it is of this design. The big safety issue here, is that there is no power transformer. Power transformers isolate the chassis from the AC Power line. In the AA5 radio, the chassis is connected to the power line, either through a capacitor and resistor or in some cases, directly connected. The power in your house has one leg, called the "neutral" leg grounded. The other leg, the "hot" leg is at 120V (Volts) above ground potential. Now, if the chassis is connected to the neutral leg, there is no issue. If the chassis is connected to the hot leg, then the danger of shock is real. Since the power cord is not polarized (to allow only one way to connect, so the chassis is at neutral potential), you have a 50% chance of having the chassis being hot. To make matters worse, on this radio and almost all radios of the AA5 AC-DC transformerless variety, the power switch is in the "neutral" (chassis) side instead of the hot side. So if the power plug is connected in the polarity that puts the chassis on the neutral leg with the switch on, the chassis becomes hot through the tube filaments when the switch is off. a cold tube filament has a very low resistance.
Most restorers and experts on this Phorum recommend the following:
- Installing a power cord with a "polarized" Plug. The thick blade is the neutral leg and the thin blade is the "hot" leg. The neutral is connected to the "ground side" of the circuit (negative of the power supply, 1st AF tube filament leg of the heater "string").
- Rewiring the power switch so it is on the "hot" side (rectifier plate and resistor or rectifier filament of the heater string).
- Replacing the "electrolytic" power supply filter capacitor.
- Replacing all "paper" capacitors.
If you have good electronics skills and can read a schematic, you can modify the radio by adding an audio input. this is not horribly difficult. You need:
- An "RCA" jack
- A SPDT (Single Pole Double Throw) switch.
- The schematic.
Perform the following:
- Restore the radio as above, adding the polarized cord, moving the power switch to the hot side and replacing all elecgtrolytic and paper capacitors.
- Disconnect the connection at the junction of the volume control and Detector circuit (a black wire that goes to the 2nd IF transformer and Cap 27e and resistor 27D on the schematic)
- Connect the common terminal of the SPDT switch to the volume control.
- Connect the black wire removed from the volume control to one leg of the SPDT switch
- Connect the other leg of the SPDT switch to the center pin of the RCA jack.
- Connect the shell of the RCA jack to the chassis.
If you are not comfortable doing this, then an alternative is a "home AM transmitter". These are low output, are legal under FCC Part 15 rules and some are easily tunable to a "dead" spot on the AM band. The easiest to use is the iAM "Talking House" transmitter. This is not cheap, they run about $170 on Amazon, eBay and other websites. There are nicer ones such as the SSTran but these are much more expensive. There are cheaper kits available, but the skills above are needed.
I hope this all helps. Keep asking questions, we are all happy to help!
Best Regards,
John "MrFixr55"
"Do Justly, love Mercy and walk humbly with your God"- Micah 6:8
Best Regards,
MrFixr55