I'm no engineer, but my understanding is that the epicyclics in the Mark V are to assist steering rather than act as a gearbox, so you're right.

Gwyn

This is all a bit odd. There are countless references to Wilson's design, but I can't find an actual description of it. With respect, Charlie, I think that's a gearbox rather than a steering mechanism. This seems to be nearer the mark; it's OK once you get past the motorcyclists:

https://youtu.be/yYAw79386WI

Then again, I might have got hold of the wrong end of the stick altogether.

And there's this: "In 1928, Major Walter Wilson used the 16-ton Vickers A-6 tank as the vehicle for his epicyclic, or planetary, steering mechanism - a very important advance in transmission and steering design."

"1928" isn't a misprint - at least, not by me. It's from Panzer Gunner: A Canadian in the German 7th Panzer Division, 1944-45 by Bruno Friesen. Is that a red herring?

 

I don't know how much help it may be but in my book I typed up another very long and very in-depth report written for the Special Vehicle Development Committee in March 1942 by Major Wilson, titled “Notes of Tank Steering Gear”.
He identified and described the key differences and efficiency ranges for various methods of steering tanks with the relative advantages and disadvantages of each.
• Differential - 50% of driving force is lost before negative force is applied to the inside track. Where F is Driving Force, and N is Negative Force, the driving force during turn is ½F - N
• Clutch Brake - No drive is lost releasing drive from inside track. Therefore, Driving force is F - N
• Wilson Regenerative - No drive lost releasing drive from inside track. A portion of the negative inside track drive is applied to a positive drive on the outside track. The steering ratio is about 1 to 9, therefore, Driving force is F + 0.9N – N = F – 0.1N
• Modified Differential - Most efficient in higher gear but part of drive power is lost before drive is removed from inside track depending on gear ratio. In differential steering as track speed is doubled drive to outside track is ½F. In Merritt Brown, the increase is approximately 1 to 1.1 and drive is 0.9F. Assuming a ratio of 1 to 1.2 the drive transferred is about 80% of the negative drive. Therefore, Driving force is 0.9F + 0.8N – N = 0.9F – 0.2N
Major Wilson further noted that the lower the gear the Merritt Brown system is used in, then the lower the efficiency and that the Wilson system lost less tractive effort than the Merrit Brown regardless of issues with gear ratios. and that “the loss in tractive effort is always greater in the Merritt Brown than in the Wilson, irrespective of the difference of gear ratios.

I'm not sure if we are talking about gearboxes or steering. For some gen on the epicyclic gearboxes try the Tank Museum's Matilda diaries part 11: www.youtube.com/watch

For some gen on steering, try MAFVA's Tankette 47/1.