549: Difference between revisions
(Bob Shand did mechanical design on the 549) |
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|series=500-series scopes | |series=500-series scopes | ||
|model=549 | |model=549 | ||
|summary=30 MHz storage | |summary=30 MHz storage oscilloscope | ||
|image=Tek-549 | |image=Tek-549-front.jpg | ||
|caption=Tektronix 549 front | |caption=Tektronix 549 front | ||
|introduced=1965 | |introduced=1965 | ||
|discontinued=1974 | |discontinued=1974 | ||
|designers=Bob Shand; | |designers=Mel Holznagel;Bob Shand; | ||
|manuals= | |manuals= | ||
* [[Media:070-0508-00.pdf|549 | * [[Media:070-0508-00.pdf | Tektronix 549 Manual]] (OCR) | ||
'''Maintenance Notes''' | |||
* [[Media:tek_549_crt_socket_leak.pdf|Maintenance Note: 549 CRT Socket Leakage ( | * [[Media:tek_549_crt_socket_leak.pdf|Maintenance Note: 549 CRT Socket Leakage]] (OCR) | ||
* [[Media:tek_549_note_ringing_1a1.pdf|Maintenance Note: 549 Ringing with 1A1 ( | * [[Media:tek_549_note_ringing_1a1.pdf|Maintenance Note: 549 Ringing with 1A1]] (OCR) | ||
'''Data Sheets and Catalogs''' | |||
* [[Media:tek_549_catalog.pdf|Tektronix 549 in 1968 Catalog ( | * [[Media:tek_549_catalog.pdf|Tektronix 549 in 1968 Catalog]] (OCR) | ||
* [[Media:tek_549_german_intro.pdf|Tektronix 549 Introduction in German ( | * [[Media:tek_549_german_intro.pdf|Tektronix 549 Introduction in German]] (OCR) | ||
* [[Media:tek_549_Remote_Control_DS.pdf|Tektronix 549 Remote Control Datasheet ( | * [[Media:tek_549_Remote_Control_DS.pdf|Tektronix 549 Remote Control Datasheet]] (OCR) | ||
}} | }} | ||
The '''Tektronix 549''' is the only [[CRT_storage_scope|storage scope]] in the 500 series (except for the [[537]] that never left prototype stage). | The '''Tektronix 549''' is the only [[CRT_storage_scope|storage scope]] in the 500 series (except for the [[537]] that never left prototype stage). | ||
It takes a [[Letter-series_and_1-series_plug-ins|letter-series or 1-series vertical plug-in]]. | It takes a [[Letter-series_and_1-series_plug-ins|letter-series or 1-series vertical plug-in]]. | ||
The 549 was [[introduced in | The 549 was [[introduced in 1965]] and discontinued after 1973. | ||
[[Mel Holznagel]] designed the vertical output stage. [[Bob Shand]] did the mechanical design. | |||
{{BeginSpecs}} | {{BeginSpecs}} | ||
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{{Spec | Rise time | 12 ns }} | {{Spec | Rise time | 12 ns }} | ||
{{Spec | Writing speed | 5 cm/μs }} | {{Spec | Writing speed | 5 cm/μs }} | ||
{{Spec | Line voltage | 104/115/127 or 208/230/254 V<sub>AC</sub> ±10%, selected via primary voltage selector (inside cabinet) and voltage range selector (on rear panel), 50 to 60 Hz }} | {{Spec | Line voltage | 104/115/127 or 208/230/254 V<sub>AC</sub> ±10%, selected via primary voltage selector (inside cabinet) and voltage range selector (on rear panel), 50 to 60 Hz }} | ||
{{Spec | Thermal protection | 65°C (150°F) Automatic resetting [[thermal cutoff]] }} | {{Spec | Thermal protection | 65°C (150°F) Automatic resetting [[thermal cutoff]] }} | ||
{{Spec | Power consumption | 650 W, 750 VA }} | {{Spec | Power consumption | 650 W, 750 VA }} | ||
{{Spec | Size | {{Spec | Size | 43.2 cm × 32.9 cm × 60.7 cm (W/L/H, 13" × 24" × 17") }} | ||
{{Spec | Weight | {{Spec | Weight | 31 kg (68 lb) }} | ||
{{Spec | Cooling | AC Fan }} | {{Spec | Cooling | AC Fan }} | ||
{{Spec | | {{Spec | Accessories | [[012-0102-00|012-0102-00 remote control cable/switch]] }} | ||
{{EndSpecs}} | {{EndSpecs}} | ||
==Links== | |||
* [https://lazyelectrons.wordpress.com/2018/01/11/tektronix-549-restoration/ Rajesh's Tek 549 Restoration] / [https://www.youtube.com/watch?v=8rWH-uuf60U Video] | |||
* [https://www.radiomuseum.org/forum/tektronix_the_storage_story.html Tektronix, the Storage Story] (1966) @ radiomuseum.org | |||
* A [https://www.youtube.com/watch?v=1SRtm7eva0A 549 @ YouTube] | |||
* [https://www.youtube.com/watch?v=D6szONQe1go&t=6s Deon's 549 with 564 HT Transformer] | |||
{{Documents|Link=549}} | |||
{{PatentLinks|549}} | |||
==Internals== | ==Internals== | ||
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The output of the cascode (the plate of the 7119) drives the [[delay line]]. | The output of the cascode (the plate of the 7119) drives the [[delay line]]. | ||
Since the entire signal path is differential, | Since the entire signal path is differential, the common-mode voltage does not have to be zero, | ||
the common-mode voltage does not have to be zero, and it is not | and it is not – the differential signal in the delay line rides on 167 volts of DC. | ||
the differential signal in the delay line rides on 167 volts of DC. | |||
After the delay line, the signal enters another cascoded differential amplifier with NPN BJTs | After the delay line, the signal enters another cascoded differential amplifier with NPN BJTs | ||
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The 549 uses the [[T5490]] CRT which has two storage targets, upper and lower, | The 549 uses the [[T5490]] CRT which has two storage targets, upper and lower, | ||
whose storage mode and erase signals can be controlled independently. | whose storage mode and erase signals can be controlled independently. | ||
The [[012-0102-00|012-0102-00 remote control cable/switch]] (also used for [[564B]]) can be used to remotely erase the screen and reset the single sweep. | |||
[[Amphenol 165 series connectors|Amphenol 165-16 socket]] at the rear top of | It connects to an [[Amphenol 165 series connectors|Amphenol 165-16 socket]] at the rear top of the scope (see [[549 remote control connector]] for pin-out). | ||
the scope (see [[549 remote control connector]] for pin-out). | |||
===Power Supply=== | ===Power Supply=== | ||
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The 549 uses a [[120-0423-00]] HV transformer driven by a [[6GF5]] tube from +470 V. | The 549 uses a [[120-0423-00]] HV transformer driven by a [[6GF5]] tube from +470 V. | ||
== | ===HV Transformer Problem and Replacement=== | ||
The HV transformer (part #120-0423-00) uses epoxy impregnation like models 544,545B,546,547,556 and as such suffers the same issue of increasing losses with age unlike the earlier bee's wax transformers. This issue will eventually lead to failure of the HV oscillator circuit resulting in loss of display intensity, blooming and finally vanishing trace. One solution is to use a donor HV transformer out of a 564 storage scope. This was successfully implemented by Morris Odell and Deon Vandenberg however invented by another. A photo is provided below showing the new transformer installed with terminals arbitrarily labelled to help others perform the same task. Looking at the photo the top connections are obvious. The left middle connection goes to the right strip pin 9 (labelled as 9) The bottom section has two connections, one on the left towards the neons(labelled A) this goes to the anode of the driver tube V800 pin 7. The other obscured wire is the bottom left which goes to the 4th pin on the left strip (labelled as 4). Resistor R807 is to be changed from 39k to 47k. Resistor R2 is to be added between the junction of D836 and C842 and R837. (See schematic.) When this is done adjust the HT at the test point to -3700V (R855) and adjust R815 to make the grid voltage -3790V (located at test point labelled TP). To see the new transformer in action click on the bottom youtube link. | |||
==Pictures== | ==Pictures== | ||
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Tek-549 and d.jpg | 549 front, earlier round bezel | Tek-549 and d.jpg | 549 front, earlier round bezel | ||
Tek 549 mt1.jpg | 549 front, later rectangular bezel | Tek 549 mt1.jpg | 549 front, later rectangular bezel | ||
Tek-549-front.jpg | |||
Tek 549 trace2.jpg | | Tek 549 trace2.jpg | | ||
Tek_549-Front.jpeg | | Tek_549-Front.jpeg | | ||
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549_Delayed_Trace.jpg | B INTEN BY A Trig in 549 | 549_Delayed_Trace.jpg | B INTEN BY A Trig in 549 | ||
549_Dual_Trace.jpg | Dual trace display in 549 | 549_Dual_Trace.jpg | Dual trace display in 549 | ||
Tek 549-1 knob layout.jpg|549 knob layout | Tek 549-1 knob layout.jpg | 549 knob layout | ||
Tek 549 - Electronics 1965-08-23.jpg | 549 ad in Electronics 1965-08-23 | |||
Tek | |||
</gallery> | </gallery> | ||
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</gallery> | </gallery> | ||
===HT Transformer modification=== | |||
<gallery> | |||
564 HV Transformer installed in the 549.jpeg | 564 HV transformer installed in the 549 | |||
Schematic of HT transformer modifications.jpeg | Schematic showing other changes required | |||
</gallery> | |||
==Components== | |||
{{Parts|549}} | {{Parts|549}} | ||
[[Category:500 series scopes]] | [[Category:500 series scopes]] | ||
[[Category:Analog storage scopes]] | [[Category:Analog storage scopes]] | ||
Revision as of 07:38, 29 June 2024
The Tektronix 549 is the only storage scope in the 500 series (except for the 537 that never left prototype stage).
It takes a letter-series or 1-series vertical plug-in. The 549 was introduced in 1965 and discontinued after 1973.
Mel Holznagel designed the vertical output stage. Bob Shand did the mechanical design.
Key Specifications
Bandwidth | DC to 30 MHz (−3 dB) with fast plug-ins (1A1, 1A2, 1A4, 1A5) |
---|---|
Rise time | 12 ns |
Writing speed | 5 cm/μs |
Line voltage | 104/115/127 or 208/230/254 VAC ±10%, selected via primary voltage selector (inside cabinet) and voltage range selector (on rear panel), 50 to 60 Hz |
Thermal protection | 65°C (150°F) Automatic resetting thermal cutoff |
Power consumption | 650 W, 750 VA |
Size | 43.2 cm × 32.9 cm × 60.7 cm (W/L/H, 13" × 24" × 17") |
Weight | 31 kg (68 lb) |
Cooling | AC Fan |
Accessories | 012-0102-00 remote control cable/switch |
Links
- Rajesh's Tek 549 Restoration / Video
- Tektronix, the Storage Story (1966) @ radiomuseum.org
- A 549 @ YouTube
- Deon's 549 with 564 HT Transformer
Documents Referencing 549
- (no results)
Patents that may apply to 549
Page | Title | Inventors | Filing date | Grant date | Links |
---|---|---|---|---|---|
Patent US 3426237A | Automatic erase circuit for storage tube | Don Calnon • Russ Fillinger • Melvin A. Holznagel • Richard W Stack | 1965-08-23 | 1969-02-04 | 549 • Direct-view storage CRT |
Internals
Mix of Transistors and Tubes
Like many Tek scopes from the period, the 549 uses a mix of transistors and tubes. For example, consider the buffer amplifier in the 549, whose purpose is to interface the high-impedance output of the plug-in with the low-impedance of the 200 ns delay line in the 549. As is usual in oscilloscope vertical circuits, the requirement is to have flat frequency response from DC to the maximum frequency of the scope and to have linear phase response over this same frequency range.
In the 549, this buffer is implemented with a 6DJ8 cathode follower at the plug-in interface driving an NPN BJT differential amplifier at the bottom of a cascode with a 7119 tube on top. The output of the cascode (the plate of the 7119) drives the delay line.
Since the entire signal path is differential, the common-mode voltage does not have to be zero, and it is not – the differential signal in the delay line rides on 167 volts of DC.
After the delay line, the signal enters another cascoded differential amplifier with NPN BJTs on the bottom and a pair of 10-watt 8608 power pentodes on the top whose plates drive the CRT's vertical deflection plates of the CRT through inductive matching/peaking networks.
Non-Distributed Amplifier
The 549 is slightly unusual among 54x-series scopes in that it does not use a distributed vertical amplifier. (Other exceptions include the 545B and 547).
Triggering
Triggering is done using an NPN BJT Schmitt trigger.
Storage
The 549 uses the T5490 CRT which has two storage targets, upper and lower, whose storage mode and erase signals can be controlled independently.
The 012-0102-00 remote control cable/switch (also used for 564B) can be used to remotely erase the screen and reset the single sweep. It connects to an Amphenol 165-16 socket at the rear top of the scope (see 549 remote control connector for pin-out).
Power Supply
The 549's power supply provides regulated outputs of −12.4 V, −150 V, +100 V, +225 V, +300 V, +350 V, and +500 V as well as a +475 V unregulated output.
Line input is connected to main transformer primary via two switches, one inside the chassis to select the 110 V or 230 V range, and another on the rear of the chassis to select Low/Medium/High voltage in either range.
Multiple secondary windings feeds diodes for rectification for different voltages. Both center-tap and bridge configuration is used. Transistors and/or tubes are used for regulation.
As is common in many Tektronix scopes, all regulated voltages are referred to the negative regulated rail (−150 V in this case) by fixed low-tolerance dividers. Only the −150 V voltage is trimmed, its reference is a 5651 VR tube. A 12AX7 is used as the comparator, three 12B4 in parallel are used as series pass tubes. A 6AU6 is used as an error amplifier.
Most other stages replicate the same design, except slight changes in tubes used − the +350 V, +225 V and +100 V regulators employ a 6080 as the pass element.
The −12.4 V regulator is transistor-based.
The 549 power supply uses a 6N030 delay relay (P/N 148-0021-00) to control a relay that switches supply voltages on only after the tubes are warmed up. On power up, only heater voltage is applied to the tubes. After a delay of up to 60 seconds, the thermal delay relay activates the main relay (driven from unregulated +170 V). This also cuts out the delay relay, which can cool down and will be ready to delay again even after a quick interrupt in power input.
The 549 has a 65°C (150°F) thermal cutoff.
The 549 uses a 120-0423-00 HV transformer driven by a 6GF5 tube from +470 V.
HV Transformer Problem and Replacement
The HV transformer (part #120-0423-00) uses epoxy impregnation like models 544,545B,546,547,556 and as such suffers the same issue of increasing losses with age unlike the earlier bee's wax transformers. This issue will eventually lead to failure of the HV oscillator circuit resulting in loss of display intensity, blooming and finally vanishing trace. One solution is to use a donor HV transformer out of a 564 storage scope. This was successfully implemented by Morris Odell and Deon Vandenberg however invented by another. A photo is provided below showing the new transformer installed with terminals arbitrarily labelled to help others perform the same task. Looking at the photo the top connections are obvious. The left middle connection goes to the right strip pin 9 (labelled as 9) The bottom section has two connections, one on the left towards the neons(labelled A) this goes to the anode of the driver tube V800 pin 7. The other obscured wire is the bottom left which goes to the 4th pin on the left strip (labelled as 4). Resistor R807 is to be changed from 39k to 47k. Resistor R2 is to be added between the junction of D836 and C842 and R837. (See schematic.) When this is done adjust the HT at the test point to -3700V (R855) and adjust R815 to make the grid voltage -3790V (located at test point labelled TP). To see the new transformer in action click on the bottom youtube link.
Pictures
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549 front, earlier round bezel
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549 front, later rectangular bezel
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549 Storage controls
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Front of a 549
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549 Rear
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Line voltage selector
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B INTEN BY A Trig in 549
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Dual trace display in 549
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549 knob layout
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549 ad in Electronics 1965-08-23
Internal
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LHS
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RHS
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RHS Timebase Ch: Door Open
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Top
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Underside
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8608 vertical output tubes
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Vertical amp
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8608 vertical output tubes
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8608 vertical output tubes
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Top view
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Storage board
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Power supply behind door
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Right side internal
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Primary voltage range selector
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LV power supply tubes
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LV power supply tubes
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Storage board Rev "PC" (recapped)
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Storage board Rev "PE"
HT Transformer modification
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564 HV transformer installed in the 549
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Schematic showing other changes required
Components
Some Parts Used in the 549
Part | Part Number(s) | Class | Description | Used in |
---|---|---|---|---|
120-0423-00 | 120-0423-00 | Discrete component | high voltage transformer | 549 |
12AL5 | 154-0038-00 | Vacuum Tube (Double Diode) | high-perveance dual diode | 3A2 • 3B2 • 545 • 545A • 549 • N |
12AU6 | 154-0040-00 | Vacuum Tube (Pentode) | RF pentode | 81 • 112 • 1L10 • 1L20 • 1L60 • 3L10 • 512 • 556 • 575 • 545 • 547 • 549 • 581 • 585 • A • B • C • G • K • H • L • ML • M • N • O • R • S • Z |
12AU7 | 154-041 • 154-0041-00 • 154-0287-00 | Vacuum Tube (Dual Triode) | dual medium-μ triode | 104 • 104A • 122 • 160 • 161 • 162 • 181 • 190 • 310 • 310A • 316 • 317 • 3C66 • 502 • 502A • 507 • 511A • 512 • 516 • 517 • 517A • 524 • 526 • 535 • 536 • 545 • 545A • 545B • 547 • 549 • 555 • 561 • 564 • 570 • 575 • 581 • 581A • 585 • 585A • C • D • E • N • Q • Hickok 1825 |
12AX7 | 154-043 • 154-0043-00 | Vacuum Tube (Dual Triode) | dual triode | 3C66 • 513 • 524 • 531 • 531A • 535 • 536 • 545 • 545A • 545B • 546 • 547 • 549 • 555 • 570 • 581 • 581A • 585 • 585A • E • Q • Hickok 1825 • Keithley 610 |
12B4 | 154-044 • 154-0044-00 | Vacuum Tube (Triode) | power triode | 126 • 310 • 310A • 316 • 317 • 502 • 502A • 524 • 526 • 541 • 541A • 535 • 535A • 545 • 545A • 546 • 547 • 570 • 549 • 551 • 555 • 513 • 581 • 581A • 585 • 585A • Keithley 610 |
12BY7A | 154-047 • 154-0047-00 | Vacuum Tube (Pentode) | miniature 6.5 W power pentode | 106 • 163 • 524 • 531 • 533 • 535 • 536 • 541 • 543 • 535 • 545 • 545A • 549 • 555 • 75 • 3A75 • 3B5 |
5651 | 154-052 • 154-0052-00 • 154-0288-00 | Gas Discharge Tube (Voltage regulator) | 87 V voltage reference | 128 • 160 • 310 • 310A • 502 • 503 • 504 • 511A • 512 • 516 • 517 • 524 • 526 • 531 • 531A • 535 • 536 • 541 • 541A • 543 • 543A • 543B • 545 • 545A • 545B • 570 • 549 • 581 • 581A • 585 • 585A |
6080 | 154-0056-00 • 154-0315-00 | Vacuum Tube (Dual Triode) | dual power triode | 132 • 160 • 316 • 317 • 516 • 535 • 535A • RM35A • 541 • 541A • 535 • 536 • 545 • 545A • 545B • 546 • 547 • 549 • 565 • 567 • 575 • 581 • 581A • 585 • 585A |
6AL5 | 154-016 • 154-0016-00 • 154-0038-00 | Vacuum Tube (Dual Diode) | high-perveance dual diode | 163 • 181 • 190 • 1M1 • 310 • 310A • 315 • 316 • 317 • 3B1 • 3B1S • 3B2 • 3B3 • 3B5 • 502 • 502A • 503 • 511 • 511A • 512 • 516 • 517 • 517A • 524 • 526 • 535 • 535A • 545 • 545A • 549 • 551 • 565 • 570 • 581 • 581A • 585 • 585A • C • T • Telequipment D52 • Telequipment D56 • Telequipment S52 |
6AU6 | 154-0022-00 • 157-0073-00 • 157-0059-00 • 154-0284-00 | Vacuum Tube (Pentode) | RF pentode | 107 • 160 • 181 • 190 • 60 • 2A60 • 72 • 3A72 • 3C66 • 310 • 310A • 316 • 317 • 360 • 502 • 502A • 506 • 511 • 511A • 512 • 513 • 516 • 517 • 517A • 524 • 526 • 529 • RM529 • 531 • 531A • 535 • 536 • 545 • 545A • 546 • 547 • 549 • 555 • 561 • 561A • 561S • 564 • 565 • 567 • 570 • 575 • 581 • 581A • 585 • 585A • 80 • C • CA • Q |
6BL8 | 154-0278-00 | Vacuum Tube (Triode/Pentode) | triode-pentode combo | 67 • 2B67 • 3B1 • 3B1S • 3B2 • 3B3 • 3B4 • 503 • 504 • 506 • 516 • 549 • 561 • 561A • 561S • 564 • 565 • 567 • Telequipment D52 • Telequipment D56 • Telequipment S31 • Telequipment S32 • Telequipment S32A • Telequipment S51 • Telequipment S52 |
6CL6 | 154-031 • 154-0031-00 • 154-0286-00 | Vacuum Tube (Pentode) | 7.5 W power pentode | 132 • 310 • 310A • 316 • 317 • 515 • 524 • 525 • 531 • 535 • 535A • 545 • 545A • 545B • 549 • 570 • 581 • 581A • 585 • 585A • 3A74 |
6DJ8 | 154-0187-00 • 154-0305-00 | Vacuum Tube (Dual Triode) | dual triode | 067-506 • 111 • 132 • 161 • 310A • 316 • 317 • 502 • 502A • 503 • 504 • 506 • 515 • 516 • 519 • 526 • 529 • RM529 • 533 • 535 • 536 • 543 • 544 • 545 • 545A • 545B • 546 • 547 • 549 • 555 • 556 • 561A • 561S • 564 • 565 • 567 • 581 • 581A • 585 • 585A • 661 • 1A4 • 1S1 • 60 • 2A60 • 63 • 2A63 • 67 • 2B67 • 3A1 • 3A1S • 3A2 • 3A3 • 3A6 • 3A7 • 72 • 3A72 • 75 • 3A75 • 4S2 • 51 • 3B1 • 3B1S • 3B2 • 3B3 • 3B4 • 3M1 • 3S76 • 3T77 • 3T77A • 9A1 • 9A2 • 1121 • 80 • 81 • 82 • 86 • B • O • W • Z • Telequipment D56 • Telequipment S32A • Telequipment D52 • S-311 • Telequipment TD51 • Telequipment S52 • Telequipment S51 • Telequipment Type A • TU-4 |
6GF5 | 154-0494-00 | Vacuum Tube (Pentode) | high voltage 9 Watt beam-power pentode | 549 • 556 |
7119 | 154-0340-00 | Vacuum Tube (Dual Triode) | dual triode | 067-506 • 067-0532-00 • 191 • 3A3 • 3B4 • 3B5 • 516 • 545B • 549 • 661 • Chemtrix 205 |
8426 | Vacuum Tube (Pentode) | RF pentode | O • 545A • 547 • 549 • 581A • 585A | |
8608 | 154-0491-00 | Vacuum Tube (Pentode) | 10-watt power pentode | 549 • 556 • 3A7 |
T5490 | 154-0498-00 | CRT | direct-view storage CRT | 549 |