7000 Series plug-in interface: Difference between revisions
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From [[Media:On-The-History-And-Environment-Of-Tektronix.pdf|On the History and Environment of Tektronix]] page 58: | From [[Media:On-The-History-And-Environment-Of-Tektronix.pdf|On the History and Environment of Tektronix]] page 58: | ||
<blockquote> | <blockquote> | ||
But Howard then threw another challenge to his group: plug-in height. | But [[Howard Vollum|Howard]] then threw another challenge to his group: plug-in height. | ||
Work up through late 1966 had assumed a seven inch plug-in height | Work up through late 1966 had assumed a seven inch plug-in height which would provide room for the needed components using readily available and proven parts. | ||
which would provide room for the needed components using readily available and proven parts. | |||
But the H-P scopes were smaller in size and quite attractive in appearance. | But the H-P scopes were smaller in size and quite attractive in appearance. | ||
So, one day, Howard said, "the plug-ins will be 5 1/2 inches in height." | So, one day, Howard said, "the plug-ins will be 5 1/2 inches in height." | ||
Oliver Dalton recalls the decision to reduce the plug-in height as a traumatic one: | [[Oliver Dalton]] recalls the decision to reduce the plug-in height as a traumatic one: | ||
"The decision set us back at least one year for the height decision required three major electro-mechanical component efforts in addition to the IC read-out effort: 1) new lit push-buttons. . .we needed 25 on a panel; 2) cam | "The decision set us back at least one year for the height decision required three major electro-mechanical component efforts in addition to the [[7000 series readout system|IC read-out effort]]: 1) new [[Back-lit switches|lit push-buttons]] ... we needed 25 on a panel; 2) [[cam switch]]es - these were Howard's ideas ... we needed them to be small and reasonably cheap; 3) [[Miniature relays|relays]] ... we needed them to be small and reliable. We then largely had to make do with other available parts, like potentiometers." | ||
</blockquote> | </blockquote> | ||
[[Category:Plug-in interfaces]] | [[Category:Plug-in interfaces]] |
Revision as of 04:16, 28 June 2023
Tektronix 7000 series oscilloscope mainframes have one (7912) or two vertical plug-in slots, and zero (7612D), one (7xx3, 7912) or two (7xx4) horizontal plug-in slots.
According to Barrie Gilbert in The Gears of Genius, the 7000 series backplane was largely developed by Les Larson.
The interconnect on either slot type is a 76-pin, 0.1" pitch PCB edge connector. The pinout on vertical and horizontal slots is not identical but compatible to the point that vertical plugins can be installed in horizontal slots and vice versa. However, in that case, some functions may be unavailable − for example, trigger signals are only routed to H slots so a timebase in a V slot must be externally triggered.
Looking into the mainframe from the front panel, "A" pins are left of the connector centerline (on the plug-in PCB's component side) and "B" are on the right (on the plug-in PCB's solder side). Pins are numbered from 1 at the bottom to 38 on the top. In the following table, (H) indicates signals available in horizontal slots only, (H-A) is horizontal slot A, (H-B) is horizontal slot B, and (V) denotes signals available in vertical slots only.
Pin group function legend
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Description of signals
Notes[note 1] Output from H plugins, input on V plugins [note 2] Output from V plugins, unused and terminated 50 Ω to ground in mainframe H slots [note 3] In programmable mainframes, A24 is clamped to not exceed +3 V, indicating to programmable plug-ins to use TS2-TS9 as GPIB lines and a modified readout logic using only TS1 and TS10, with TS1 being active in time slot 1 as in other mainframes, and TS10 being active in each time slot. Programmable plug-ins source at least 100 μA into TS10 (A29) indicating to a programmable mainframe that the alternative time-slot scheme is to be used. [note 4] Not provided by most mainframes (digitizers only?). 7A16P connects B27 to A9, requires −5.2 V on A27. [note 5] According to the 11000-series interface manual, many 7k plug-in units ground pin B21 or connect it to pin A21, and The 7D10, 7D11, 7D14, 7S14, and possibly some others have pin A21 grounded. [note 6] A22 = Busy output from 7D12, 7D15; A22 = Delayed Sweep Gate output for 7B53A with mod. 769G, routed to real panel on 7403 or 7603 scopes with 769H mod. [note 7] B22 = /Hold input to 7D12, 7D15. Mainframe connection or use unclear. [note 8] The plug-in mode is supplied to the mainframe either as a resistor connected to ground (with 5% tolerance), or by supplying a DC voltage (with 0.25 V tolerance):
Power Supply Load LimitsAccording to the 7A17 manual, the total allowed DC power consumption for each plugin is 16.5 W, with individual current limits as shown below.
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Links
- Repairing 7000-series plug-in sockets
- Tektronix 7000-Series Plug-in to Mainframe Interface Manual (PDF)
- Introduction to the 7000 Series Switching and Logic Circuits (Ken Parker, 1970) (PDF,OCR,1MB)
- Kahrs, Interfacing to the Tektronix 7000 series
- 067-0589-00 rigid extender
- 067-0616-00 flexible extender
- John Griessen's flex extender kit / Photo
Prototype
After it was decided that there would be a "New Generation" series of lab scopes to replace the 500 Series, concept prototypes were built. Before Howard Vollum decided on the height of the New Generation plug-ins, a taller form factor was being considered. This is what it looked like:
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Very Early New Generation Plug-in Prototype
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Very Early New Generation Plug-in Prototype
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Very Early New Generation Plug-in Prototype
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Very Early New Generation Plug-in Prototype
From On the History and Environment of Tektronix page 58:
But Howard then threw another challenge to his group: plug-in height. Work up through late 1966 had assumed a seven inch plug-in height which would provide room for the needed components using readily available and proven parts. But the H-P scopes were smaller in size and quite attractive in appearance. So, one day, Howard said, "the plug-ins will be 5 1/2 inches in height."
Oliver Dalton recalls the decision to reduce the plug-in height as a traumatic one: "The decision set us back at least one year for the height decision required three major electro-mechanical component efforts in addition to the IC read-out effort: 1) new lit push-buttons ... we needed 25 on a panel; 2) cam switches - these were Howard's ideas ... we needed them to be small and reasonably cheap; 3) relays ... we needed them to be small and reliable. We then largely had to make do with other available parts, like potentiometers."