Difference between revisions of "Williams tube"
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− | The '''Williams tube''' was one of the technologies used for [[main memory]] in the very earliest computers, along with [[delay line]]s and [[drum]]s. It used [[electrostatic]] storage on the face of a [[cathode ray tube]]. | + | The '''Williams tube''' was one of the technologies used for [[main memory]] in the very earliest computers, along with [[delay line]]s and [[drum]]s. It used [[electrostatic]] storage on the face of a [[cathode ray tube]] (CRT). |
Although it needed very subtle [[electronics]], the advantage over the other two was that it was [[random access]]; the time to gain access to any particular bit was constant. | Although it needed very subtle [[electronics]], the advantage over the other two was that it was [[random access]]; the time to gain access to any particular bit was constant. | ||
− | The basic physical process used was 'secondary emission'; when the electron beam of the CRT | + | The basic physical process used was 'secondary emission'; when the [[electron]] beam of the CRT hits the phosphor on the tube face, it emits extra electrons, leaving a spot which is depleted of electrons. This leaves a 'well', a spot of electric charge. If the beam is then directed to a nearby spot, secondary electrons from that will fill the well. |
− | This effect can be used to store data; if the well is left intact, that spot can be taken to represent 0, and if the well is filled, | + | This effect can be used to store data; if the well is left intact, that spot can be taken to represent 0, and if the well is filled, that can be 1. |
To read the data out, the beam is briefly directed toward the original spot; depending on whether it held a well, or nothing, a tiny electrical signal is produced which can be picked up on a [[conductor]] plate placed close to the tube face, and [[amplifier|amplified]]. | To read the data out, the beam is briefly directed toward the original spot; depending on whether it held a well, or nothing, a tiny electrical signal is produced which can be picked up on a [[conductor]] plate placed close to the tube face, and [[amplifier|amplified]]. | ||
− | The charge wells tended to disappear fairly quickly, so the data had to be [[refresh]] | + | The charge wells tended to disappear fairly quickly, so the data had to be [[memory refresh|refreshed]] at a fairly high rate. |
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[[Category: Memory Basics]] | [[Category: Memory Basics]] |
Revision as of 01:10, 20 September 2022
The Williams tube was one of the technologies used for main memory in the very earliest computers, along with delay lines and drums. It used electrostatic storage on the face of a cathode ray tube (CRT).
Although it needed very subtle electronics, the advantage over the other two was that it was random access; the time to gain access to any particular bit was constant.
The basic physical process used was 'secondary emission'; when the electron beam of the CRT hits the phosphor on the tube face, it emits extra electrons, leaving a spot which is depleted of electrons. This leaves a 'well', a spot of electric charge. If the beam is then directed to a nearby spot, secondary electrons from that will fill the well.
This effect can be used to store data; if the well is left intact, that spot can be taken to represent 0, and if the well is filled, that can be 1.
To read the data out, the beam is briefly directed toward the original spot; depending on whether it held a well, or nothing, a tiny electrical signal is produced which can be picked up on a conductor plate placed close to the tube face, and amplified.
The charge wells tended to disappear fairly quickly, so the data had to be refreshed at a fairly high rate.