R7103: Difference between revisions

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{{Oscilloscope Sidebar|
{{Oscilloscope Sidebar  
title=Tektronix R7103|
|manufacturer=Tektronix
image=Tek_r7103_manual.jpg|
|series=7000-series scopes
caption=Tektronix R7103 |
|model=R7103
introduced=1984 |
|image=R7103 full-front-running.jpg
discontinued=1990 |
|caption=Tektronix R7103
summary=1 GHz non-storage mainframe|
|introduced=1985
manuals=
|discontinued=1990
* [http://w140.com/sbcman/Technical%20Manuals-Main/Tektronix/7K%20Frames/R7103-OSM.pdf Tektronix R7103 Manual (PDF)]
|summary=1 GHz non-storage mainframe
|designers=Val Garuts;Gene Andrews;Hans Springer;John Addis;Wink Gross;Art Metz;Aris Silzars;Conrad Odenthal;Dave Morgan;
|manuals=
* [[Media:070-5039-00.pdf|R7103 Service Manual]]
}}
}}
The '''Tektronix R7103''' is a 1 GHz mainframe, the rack-mount version of the [[7104]]. It takes [[7000-series plug-ins]], two vertical and one  
The '''Tektronix R7103''' is a 1 GHz mainframe, the rack-mount version of the [[7104]].  
horizontal.
It takes [[7000-series plug-ins]], two vertical and one horizontal.


The scope employs a [[micro-channel plate]] CRT design to get good screen intensity at high sweep speeds with moderate acceleration voltage.
The scope employs a [[micro-channel plate]] CRT design to get good screen intensity at high sweep speeds with moderate acceleration voltage.
Many R7103s were used in nuclear instrumentation, i.a. because
<blockquote>
''[...] Waveforms as fast as 1 ns per division can now be recorded on high-quality films substantially resistant to unwanted radiation exposure.''
''[... The MCP] provides a gain in waveform brightness of several thousands. This level of brightness allows for a selection of film-processing combinations that are highly resistant to unwanted radiation.''<ref>https://www.osti.gov/servlets/purl/6731423 ''Oscilloscope Photography at Nevada Test Site (1990)''</ref>
</blockquote>


{{BeginSpecs}}
{{BeginSpecs}}
Line 25: Line 35:


==Links==
==Links==
*[http://www.eevblog.com/forum/reviews/tektronix-r7103-scope-teardown/ R7103 "teardown" with lots of internal pictures]
* [https://www.eevblog.com/forum/reviews/tektronix-r7103-scope-teardown/ R7103 "teardown" with lots of internal pictures]
{{PatentLinks|R7103}}
 
==Prices==
<!-- http://www.usinflationcalculator.com/ -->
{| class="wikitable"
|-
! &nbsp;
! Year
! 1985
! 1990
|-
!rowspan=2| Mainframe only
! Catalog Price
|align=right| $22,920
|align=right| $30,200
|-
! In 2023 Dollars
|align=right| $65,600
|align=right| $71,100
|-
!rowspan=2| Mainframe with<br />[[7A29]] and [[7B10]]
! Catalog Price
|align=right| $28,155
|align=right| $37,075
|-
! In 2023 Dollars
|align=right| $80,500
|align=right| $87,300
|-
|}


==Pictures==
==Pictures==
[[Category:Image needed]] ''please add''
<gallery>
<gallery>
Tek 7103 trace.jpg
Tek r7103 1.jpg
Tek r7103 2.jpg
Tek r7103 3.jpg
Tek r7103 4.jpg
R7103 full-front-running.jpg
R7103 boards-2.jpg|Channel switch
R7103 boards-1.jpg
R7103 top-back-open.jpg
R7103 top-mid-open.jpg
R7103 top-front-open.jpg
R7103 top-full-open.jpg
Tek 7103 plug-in bay.jpg
R7103 rear.jpg
</gallery>
</gallery>
==Mighty Oak Nuclear Test Incident==
<blockquote>
''"MIGHTY OAK was conducted on April 10, 1986, below the surface of Rainier Mesa in the T-tunnel complex. Containment of MIGHTY OAK was satisfactory in that there was no accidental release of radioactivity to the atmosphere whatsoever. However, the tunnel grout in the near-cavity region was not sufficiently constrained. Failure of this plug led to the subsequent failure of the mechanical closure systems and to the eventual flow of cavity gas, plug material, and other debris down the line-of-sight (LOS) pipe to the experiment chamber and the tunnel complex beyond."''
<ref>https://www.osti.gov/servlets/purl/5363382 ''Mighty Oak Containment Review'' (1989)</ref>
</blockquote>
The Mighty Oak containment failure in the tunnel reportedly destroyed 100+ oscilloscopes.
<blockquote>
''"All of the diagnostic equipment, and much of the construction equipment in the tunnel complex were lost as a result of heat damage and radiation contamination. At present, the loss of normally recoverable and reusable equipment is reported at approximately 32 million dollars."''<ref>https://www.osti.gov/servlets/purl/6607938 ''Containment and Safety Review for the  Mighty Oak Nuclear Weapon Effects Test'' (1987)</ref>
</blockquote>
($32M in 1986 is almost $90M in 2023 dollars.)
<gallery>
434-SAN-A851203.jpg | Tek R7103s in instrumentation racks for the Mighty Oak nuclear test
434-SAN-A860266.jpg |
434-SAN-A860535.jpg |
434-SAN-A861300.jpg | Tektronix R7103 oscilloscopes destroyed in the Mighty Oak nuclear test
</gallery>
==References==
<references />
==Components==
{{Parts|R7103}}




[[Category:7000 series non-storage mainframes]]
[[Category:7000 series non-storage mainframes]]
[[Category:Micro-channel plate CRTs]]
[[Category:Micro-channel plate CRTs]]

Latest revision as of 03:33, 26 June 2024

Tektronix R7103
1 GHz non-storage mainframe
Tektronix R7103

Produced from 1985 to 1990

Manuals
(All manuals in PDF format unless noted otherwise)
Manuals – Specifications – Links – Pictures

The Tektronix R7103 is a 1 GHz mainframe, the rack-mount version of the 7104. It takes 7000-series plug-ins, two vertical and one horizontal.

The scope employs a micro-channel plate CRT design to get good screen intensity at high sweep speeds with moderate acceleration voltage.

Many R7103s were used in nuclear instrumentation, i.a. because

[...] Waveforms as fast as 1 ns per division can now be recorded on high-quality films substantially resistant to unwanted radiation exposure.

[... The MCP] provides a gain in waveform brightness of several thousands. This level of brightness allows for a selection of film-processing combinations that are highly resistant to unwanted radiation.[1]

Key Specifications

Bandwidth 1 GHz (with 7A29) — rise time < 350 ps
Fastest calibrated sweep 200 ps/Div (with 7B10)
Features
  • Micro channel plate CRT
  • Readout
  • 2 probe power connectors

Links

Patents that may apply to R7103

Page Title Inventors Filing date Grant date Links
Patent US 4142128A Box-shaped scan expansion lens for cathode ray tube Conrad Odenthal 1977-04-18 1979-02-27

Prices

  Year 1985 1990
Mainframe only Catalog Price $22,920 $30,200
In 2023 Dollars $65,600 $71,100
Mainframe with
7A29 and 7B10
Catalog Price $28,155 $37,075
In 2023 Dollars $80,500 $87,300

Pictures

Mighty Oak Nuclear Test Incident

"MIGHTY OAK was conducted on April 10, 1986, below the surface of Rainier Mesa in the T-tunnel complex. Containment of MIGHTY OAK was satisfactory in that there was no accidental release of radioactivity to the atmosphere whatsoever. However, the tunnel grout in the near-cavity region was not sufficiently constrained. Failure of this plug led to the subsequent failure of the mechanical closure systems and to the eventual flow of cavity gas, plug material, and other debris down the line-of-sight (LOS) pipe to the experiment chamber and the tunnel complex beyond." [2]

The Mighty Oak containment failure in the tunnel reportedly destroyed 100+ oscilloscopes.

"All of the diagnostic equipment, and much of the construction equipment in the tunnel complex were lost as a result of heat damage and radiation contamination. At present, the loss of normally recoverable and reusable equipment is reported at approximately 32 million dollars."[3]

($32M in 1986 is almost $90M in 2023 dollars.)

References

  1. https://www.osti.gov/servlets/purl/6731423 Oscilloscope Photography at Nevada Test Site (1990)
  2. https://www.osti.gov/servlets/purl/5363382 Mighty Oak Containment Review (1989)
  3. https://www.osti.gov/servlets/purl/6607938 Containment and Safety Review for the Mighty Oak Nuclear Weapon Effects Test (1987)

Components

Some Parts Used in the R7103

Part Part Number(s) Class Description Used in
155-0011-00 155-0011-00 Monolithic integrated circuit clock and chop blanking 485 7313 7403N R7403N 7503 7504 7514 7603 AN/USM-281C 7613 7623 7623A 7633 7704 R7704 7704A 7834 7844 7854 7904 7904A R7903 R7912 7912AD 7912HB 7934 7104 R7103 AN/USM-281C
155-0012-00 155-0012-00 Monolithic integrated circuit Z Axis Logic 485 7504 7514 7704 R7704 7704A 7834 7844 7854 7904 R7903 7904A R7912 7934 7912AD 7912HB 7104 R7103
155-0067-02 155-0067-00 155-0067-02 155-0067-03 Monolithic integrated circuit SMPS controller 7704A 7834 7844 7854 7904 R7903 7904 7904A 7934 R7912 7912AD 7912HB 7934 7104 R7103 308 434 485 690 P7001
155-0173-00 155-0173-00 155-0173-05 Hybrid integrated circuit vertical channel switch 7104 R7103 7904A 7934 EG&G N-AM-173A
155-0175-00 155-0175-00 155-0175-05 Monolithic integrated circuit broadband amplifier 7904A 7912HB 7934 7104 R7103 7A29 7A29P 7F10 067-0587-02 067-0587-10 11A71 SCD1000 EG&G N-AM-173A
T7100 154-0783-00 CRT micro-channel plate CRT 7104 R7103
T7101 CRT micro-channel plate CRT 7104 R7103