Difference between revisions of "Range Master Transmitter"
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| − | The actual outputs of the [[Dreyer Fire Control | + | The actual outputs of the [[Dreyer Fire Control Table]]s were flexible shafts coming from handles worked at the table. In the case of range, this came from the spotting corrector. In order to avoid imposing undue load on the flexible shaft, it was seen as wise to place another F.T.P. dislocation in the data path, and the range master transmitter provided this buffer. The range indications from the Dreyer would move a red pointer on the clock face of this instrument, and the operator would chase it with a handle driving a black pointer. This action would also drive a series of "slave" range transmitters. one for each turret (and one for each director?) to pass the data on by a [[Step-by-Step|step-by-step]] circuitry. |
Each slave transmitter had a knob by which a bias could be introduced in that transmission path only. It is not clear if this capability was permit a willful increase in salvo pattern for range or to permit correction in the apparent misstep of one slave circuit only. | Each slave transmitter had a knob by which a bias could be introduced in that transmission path only. It is not clear if this capability was permit a willful increase in salvo pattern for range or to permit correction in the apparent misstep of one slave circuit only. | ||
Revision as of 22:39, 8 August 2009
A 'Range Master Transmitter' was an instrument mounted on the bulkhead of the Transmitting Station in a Royal Navy vessel. Alterations in range arrived from the Spotting Corrector of a Dreyer Fire Control Table by a flexible shaft. An operator would then note the change and Follow-the-Pointer to relay the data on to the guns and director.
Contents
Purpose
The actual outputs of the Dreyer Fire Control Tables were flexible shafts coming from handles worked at the table. In the case of range, this came from the spotting corrector. In order to avoid imposing undue load on the flexible shaft, it was seen as wise to place another F.T.P. dislocation in the data path, and the range master transmitter provided this buffer. The range indications from the Dreyer would move a red pointer on the clock face of this instrument, and the operator would chase it with a handle driving a black pointer. This action would also drive a series of "slave" range transmitters. one for each turret (and one for each director?) to pass the data on by a step-by-step circuitry.
Each slave transmitter had a knob by which a bias could be introduced in that transmission path only. It is not clear if this capability was permit a willful increase in salvo pattern for range or to permit correction in the apparent misstep of one slave circuit only.
See Also
Footnotes
Bibliography
