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I am done machining my Edward 5 and started the construction of the display base.
The base includes the fuel and gas tanks, a drawer for all the special keys, extractor a whatnot that goes with the engine and the powering and monitor system for the 5 glow plugs.
I plan to heat the plugs with AC. A 24VA transformer rewound with 5 secondaries for about 1.5V each.
I want to sense each plug because if one goes bad I have no indication other than possibly rough running of failure to start. I have to disconnect them all and use my ohm-meter to find the bad plug.
I could use only one secondary but it will be too too thick a wire to bend sharply on the bobbin and would require a 5 floating shunts on the plugs tips side.
With 5 secondaries all the shunt can be grounded and the secondaries are smaller gauges.
But all this is not the reason of this post, just background for the real question.
First a bit of history
those of us old enough will remember that Glow Plugs use to be 2V, back then the only battery available was Lead-Acid. A single cell charges at around 2.3V, as soon as disconnected from the charger they fall to 2V and stay there until discharged to 1.8V. End of story.
Then came those wonderful NiCd, the high discharge rate made it possible to use a small capacity cell that could be coupled to the plug connector and the plug igniter stick was born.
I suppose, but have no direct knowledge that the old 2V plug would work enough on a freshly charged NiCd cell.
Everybody called the NiCd cell a 1.5V cell and the 1.5 Glow plug was born.
Really?
A NiCd cell is charged until it reaches 1.5V. When connected to the load it quickly drops to 1.4V
Depending on the discharge rate I/Capacity and temperature it can be discharged down to 1-1.1 V
During a slow discharge the cell voltage is averaging 1.35V on a brisk discharge we may say the average voltage is about 1.2V.
Calling NiCd cell a 1.5V cell is just marketing talk, technically speaking convey zero information.
Now to the question: Has any one ACTUALLY measured the voltage and current on a properly working, capable to start the engine, plug powered by a middle of the charge stick or single cell NiCd?
All the other data is just guessing.
The base includes the fuel and gas tanks, a drawer for all the special keys, extractor a whatnot that goes with the engine and the powering and monitor system for the 5 glow plugs.
I plan to heat the plugs with AC. A 24VA transformer rewound with 5 secondaries for about 1.5V each.
I want to sense each plug because if one goes bad I have no indication other than possibly rough running of failure to start. I have to disconnect them all and use my ohm-meter to find the bad plug.
I could use only one secondary but it will be too too thick a wire to bend sharply on the bobbin and would require a 5 floating shunts on the plugs tips side.
With 5 secondaries all the shunt can be grounded and the secondaries are smaller gauges.
But all this is not the reason of this post, just background for the real question.
First a bit of history
those of us old enough will remember that Glow Plugs use to be 2V, back then the only battery available was Lead-Acid. A single cell charges at around 2.3V, as soon as disconnected from the charger they fall to 2V and stay there until discharged to 1.8V. End of story.
Then came those wonderful NiCd, the high discharge rate made it possible to use a small capacity cell that could be coupled to the plug connector and the plug igniter stick was born.
I suppose, but have no direct knowledge that the old 2V plug would work enough on a freshly charged NiCd cell.
Everybody called the NiCd cell a 1.5V cell and the 1.5 Glow plug was born.
Really?
A NiCd cell is charged until it reaches 1.5V. When connected to the load it quickly drops to 1.4V
Depending on the discharge rate I/Capacity and temperature it can be discharged down to 1-1.1 V
During a slow discharge the cell voltage is averaging 1.35V on a brisk discharge we may say the average voltage is about 1.2V.
Calling NiCd cell a 1.5V cell is just marketing talk, technically speaking convey zero information.
Now to the question: Has any one ACTUALLY measured the voltage and current on a properly working, capable to start the engine, plug powered by a middle of the charge stick or single cell NiCd?
All the other data is just guessing.