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{{Oscilloscope Sidebar |
{{Oscilloscope Sidebar  
title=Tektronix 519 |
|manufacturer=Tektronix
summary=1 GHz tube scope |
|series=
image=Tek 519 front.jpg |
|designers=Cliff Moulton
caption=Tek 519 |
|model= 519  
introduced=1961 |
|summary=1 GHz tube scope  
discontinued=1973 |
|image=Tek 519 with bezel.jpg  
manuals=
|caption=Tek 519  
* [http://bama.edebris.com/download/tek/519/519.djvu 519 manual] (DJVU)
|introduced=1961  
|discontinued=1974
|manuals=
* [[Media:070-243.pdf|Tek 519 manual]] (OCR, color, whole schematics)
* [[Media:Tek 519 with mods.pdf|Tek 519 manual with Modifications]] (split schematics, OCR)
* [[Media:Tek 519 early.pdf|Tektronix 519 Early Manual]] (OCR)
}}
}}
The '''Tektronix 519''' is a high-speed oscilloscope made by Tektronix from  
The '''Tektronix 519''' is a high-speed oscilloscope made by Tektronix from  
[[introduced_in_1961|1961]] to the early 1970's.   
[[introduced_in_1961|1961]] until 1974.   
It was designed by Cliff Moulton, who also designed the Type [[130]] LC Meter.   
It was designed by [[Cliff Moulton]], who also designed the Type [[130]] LC Meter.   
 
{{BeginSpecs}}
{{Spec | Channels  | One vertical channel }}
{{Spec | Bandwidth  | DC to 1 GHz }}
{{Spec | Rise time  | < 0.35 ns }}
{{Spec | Deflection | < 10 V/div, CRTs individually calibrated }}
{{Spec | Sweep      | 2 ns/div to 1 μs/div }}
{{Spec | CRT        | [[154-356]], [[154-308]] for serial numbers ≥1017 }}
{{Spec | Input impedance | 125 Ω }}
{{Spec | Power consumption | 650 W }}
{{EndSpecs}}


== No Vertical Amplifier ==
==Internals==
=== No Vertical Amplifier ===
The 519 is very unusual in that it does not contain vertical amplifiers.   
The 519 is very unusual in that it does not contain vertical amplifiers.   
The input signal is passively connected to the  
The input signal is passively connected to the [[distributed vertical deflection plates]] of the CRT,
distributed vertical deflection plates of the CRT,  
which are driven single-ended.   
which are driven single-ended.   
This allows the scope to have 1 GHz bandwidth.   
This allows the scope to have 1 GHz bandwidth.   
The vertical deflection factor is approximately 10 V/cm.
The vertical deflection factor is approximately 10 V/cm.


== CRT ==
=== CRT ===
The viewing area is two centimeters vertical, six centimeters
The viewing area is two centimeters vertical, six centimeters horizontal.
horizontal. The spot diameter on the CRT is 0.1 mm,  
The spot diameter on the CRT is 0.1 mm,  
which corresponds to 100 mV at the input connector.
which corresponds to 100 mV at the input connector.
Each CRT was individually characterized for risetime and
Each CRT was individually characterized for risetime and deflection sensitivity and the precise value was written
deflection sensitivity and the precise value was written
on the CRT and on the CRT bezel.  For serial numbers 1016 and below, the CRT part number is [[154-356]].   
on the CRT and on the CRT bezel.  For serial numbers 1016 and below,
For serial numbers 1017 and up, the CRT part number is [[154-308]].
the CRT part number is 154-356.  For serial numbers 1017 and up, the
CRT part number is 154-308.


== 125-Ohm Input Impedance ==
=== 125 Ω Input Impedance ===
The input to the 519 has an impedance of 125 ohms.   
The input to the 519 has an impedance of 125 Ω.   
The input connector is a special 125-ohm
The input connector is a special 125 Ω [[GR-874 connector]] made by Tektronix  
[[Connectors#GR-874|GR-874 connector]] made by Tektronix  
that is neither electrically nor mechanically compatible with the much more  
that is neither electrically nor mechanically compatible  
common 50 Ω GR-874 connector.  Tek made a resistive impedance matching
with the much more common 50-ohm GR-874 connector.   
adapter, the [[017-053]], which presents a 50 Ω input (but attenuates the signal).


== Rigid Coax Delay Line ==
=== Rigid Coax Delay Line ===
To allow viewing of the leading edge of pulses, there is a  
To allow viewing of the leading edge of pulses, there is a rigid coaxial 45 ns [[delay line]] between the input and the CRT.   
rigid coaxial 45 nanosecond [[delay line]] between the input and the CRT.   
[[File:519delay.jpg|thumb]]
[[Image:519delay.jpg|thumb]]
Note that 45 nanoseconds is an unusually short delay.
Note that 45 nanoseconds is an unusually short delay.
For comparison, the delay line in a [[547]] is 170 nanoseconds.
For comparison, the delay line in a [[547]] is 170 ns.
Keeping the delay short minimizes degradation of fast pulses,  
Keeping the delay short minimizes degradation of fast pulses,
but it necessitates a trigger and sweep circuit with quick response.
but it necessitates a trigger and sweep circuit with quick response.


A 519 can also be used with a pretrigger pulse generator like the [[111]].
A 519 can also be used with a pretrigger pulse generator like the [[111]].


== Trigger and Sweep ==
=== Trigger and Sweep ===
The sweep is triggered using a 20 mA, 4 pF [[tunnel diodes|tunnel diode]].   
The sweep is triggered using a 20 mA, 4 pF [[tunnel diodes|tunnel diode]].   
The horizontal deflection ramp signal of a 519 is generated  
The horizontal deflection ramp signal of a 519 is generated by a [[4CX250F]] external anode,
by a [[4CX250F]] external anode, radial-beam tube that is cooled
radial-beam tube that is cooled by forced air sent from a blower through a duct.   
by forced air sent from a blower through a duct.   


The total accelerating voltage of the 519 is 24 kilovolts.
The total accelerating voltage of the 519 is 24 kV.


The 519 contains a calibration step generator  
The 519 contains a calibration step generator that produces voltage steps with 100 picosecond rise time,
that produces voltage steps with 100 picosecond rise time.
and a rate generator that generates pulses with 500 ps rise times.
The step generator utilizes a charged line which is discharged through a reed relay,
while the rate generator uses a transistor in avalanche configuration.
The reed relay in the step generator is tuned in part by listening to it.


== Unusual Physical Construction ==
== Unusual Physical Construction ==
The physical construction and styling of the 519  
The physical construction and styling of the 519 differs from that of the other Tek scopes of the same period.
differs from that of the other Tek scopes of the same period.
There are multiple reasons for this.
There are multiple reasons for this.
First, it has an unusually long CRT.   
First, it has an unusually long CRT.   
Also, the large 125-ohm coaxial
Also, the large 125 Ω coaxial delay line (seen in the photo) had to fit inside the cabinet.   
delay line (seen in the photo) had to fit inside the cabinet.   


Finally, the 519 has an extra-large power transformer  
Finally, the 519 has an extra-large power transformer and a large blower for the 4CX250 tube.   
and a large blower for the 4CX250 tube.   
The mass of these extra components necessitated a larger, sturdier cabinet than, for example, the [[545]].   
The mass of these extra components necessitated a
The sheet aluminum used in the case of the 519 is thicker than that of the other Tek scopes of the period.   
larger, sturdier cabinet than, for example, the [[545]].   
The 519 weighs 99 pounds and consumes 650 watts.  
The sheet aluminum used in the case of the 519 is thicker
than that of the other Tek scopes of the period.  The 519
weighs 99 pounds and uses 650 watts.  


== Different CRT Bezels ==
== Different CRT Bezels ==
The 519 came with two different bezels.
The 519 came with two different bezels.
Pictured in Tek Catalog 20 through 26 is the early
Pictured in Tek Catalog 20 through 26 is the early version which was actually a camera mount designed to
version which was actually a camera mount designed to
be compatible with the [[C19|C19 camera]].
be compatible with the C19 camera. It had a unique
It had a unique removable part with a graticule that could be slid down
removable part with a graticule that could be slid down
such that it would not be in between the CRT beam and the camera lens.  
such that it would not be in between the CRT beam and the
Most of the non-used area of the CRT faceplate was covered by the black plastic material of the graticule cover.  
camera lens. Most of the non-used area of the CRT faceplate
This graticule cover was changed slightly as is shown in the pictures of the 519 in Tek Catalogs 27 and later.  
was covered by the black plastic material of
It still was designed to mount the C19 camera.
the graticule cover. This graticule cover was
''(For what reason was the bezel design changed?)''
changed slightly as is shown in the pictures of the
519 in Tek Catalogs 27 and later. It still was
designed to mount the C19
camera. For what reason was
the bezel design changed?


The 519 is probably the only Tek scope to come standard with a
The 519 is probably the only Tek scope to come standard with a camera mount for a bezel.
camera mount for a bezel. You had to buy camera
You had to buy camera mounting frames as accessories for the other scopes.
mounting frames as accessories for the other scopes.


== Production ==
== Production ==
Early 519's in the '61-'66 period were calibrated in Plant 2 in a group managed
Early 519's in the '61-'66 period were calibrated in Plant 2 in a group managed by Bob Randall.
by Bob Randall. Three of the men calibrating 519's in that period were  
Three of the men calibrating 519's in that period were [[Stan Griffiths]], [[Dick Bellamy]],
Stan Griffiths, Dick Bellamy, and John A.  (What is John's last name?)
and John A.  (What is John's last name?)
During this period, Cliff Moulton would visit the calibration operation to answer
During this period, Cliff Moulton would visit the calibration operation to answer
any questions that would arise as the scopes were being prepared for shipment
any questions that would arise as the scopes were being prepared for shipment
to customers.
to customers.
   
   
Later 519's were calibrated at Plant 2 Test-Final in a group managed by Jack
Later 519's were calibrated at Plant 2 Test-Final in a group managed by Jack Lyngdal.
Lyngdal. Two of the calibration people that worked there were Norm Jenkins  
Two of the calibration people that worked there were Norm Jenkins and Jack.
and Jack. (What is Jack's last name?) Another man who calibrated 519's in this
(What is Jack's last name?)
later period was Mark Balcom.
Another man who calibrated 519's in this later period was Mark Balcom.


The distributed deflection plate delay network had to be hand-trimmed, which was done
The distributed deflection plate delay network had to be hand-trimmed,
prior to putting it inside the CRT envelope. It is possible that this was done using
which was done prior to putting it inside the CRT envelope.
a TDR.
It is possible that this was done using a TDR.


== 519C: A 3 GHz Version of the 519 ==
== 519C: A 3 GHz Version of the 519 ==
Tektronix Catalog 22 (mid'63-mid'64) refers to a modified 519 with response extended to 3 GHz :
Tektronix Catalog 22 (mid'63-mid'64) refers to a modified (MOD 795) 519 with response extended to 3 GHz:
<blockquote>
<blockquote>
DC-to-3 GIGACYCLE OSCILLOSCOPE:
DC-to-3 GIGACYCLE OSCILLOSCOPE:
This modified Type 519 Oscilloscope incorporates a coaxial-deflection crt to
This modified Type 519 Oscilloscope incorporates a coaxial-deflection crt
achieve a risetime of 0.13nsec, corresponding to a 3000-Mc bandwidth. Deflection
to achieve a risetime of 0.13nsec, corresponding to a 3000-Mc bandwidth.
factor is approximately 180v/cm. Usable viewing area is 2x4 cm. Consult your FE
Deflection factor is approximately 180v/cm.
to learn about the advantages, limitations, and delivery time on this or other
Usable viewing area is 2x4 cm.
modified instruments."
Consult your FE to learn about the advantages, limitations, and delivery time on this or other modified instruments."
</blockquote>
</blockquote>
The following paper includes a chart that mentions in Figure 10 the 3GHz 519C [[introduced in 1963]].   
A [[Media:Campbell83 transient recorders.pdf|1983 IEEE Transactions on Nuclear Science paper]]
The 519C is either very rare or extinct or was never actually made.
includes a chart that mentions in Figure 10 the 3 GHz 519C [[introduced in 1963]].   
 
The 519C was sold to Lawrence Livermore Labs and the Nuclear Test Site.
* http://w140.com/kurt/campbell83/
The 519C uses the [[T5192]] CRT.


* [http://bama.edebris.com/download/tek/519/519.djvu 519 manual] (DJVU)
* [http://bama.edebris.com/download/tek/519/519.djvu 519 manual] (DJVU)
* [http://w140.com/tek_519_1968_catalog.pdf Tektronix 519 in 1968 Catalog] (PDF)


* [http://w140.com/tek_519_1968_catalog.pdf Tektronix 519 in 1968 Catalog (PDF)]
The 519 came with a set of adapters performing various functions such as interfacing the
125 Ω input impedance of the 519 with the more common 50 Ω impedance of many cables and instruments.
One example is the [[017-0019-00]].


Entry in 1969 catalog:
==See Also==
* http://w140.com/kurt/tek69/112.jpeg
* [[017-053]]
* http://w140.com/kurt/tek69/113.jpeg
* http://w140.com/kurt/tek69/114.jpeg
 
The 519 came with a set of adapters performing various functions such as interfacing the
125-ohm input impedance of the 519 with the more common 50-ohm impedance of many cables
and instruments.  One example is the [[017-0019-00]].


==Pictures==
<gallery>
<gallery>
Image:Tek 519 front.jpg|519 front view
<!--Tek 519 front.jpg|519 front view-->
Image:519_adaptkit.jpg|519 adapter kit
519_adaptkit.jpg|519 adapter kit
Image:519_adaptkit2.jpg|519 adapter kit case
519_adaptkit2.jpg|519 adapter kit case
Image:519 left.JPG
519 left.JPG
Image:519 right.JPG|Delay line around the EHT section
519 right.JPG|Delay line around the EHT section
Image:519 crt defl.jpg|CRT deflection trimmers*
Spiroline cross-section.jpg | Cross section of Spir-o-line rigid coax (delay line)
Image:519_defl_drawing.gif|Drawing from Devere book
519 crt defl.jpg|CRT deflection trimmers*
Image:519 blower.JPG|Blower and duct
519_defl_drawing.gif|Drawing from Devere book
Image:519 sweeptube.JPG|Sweep tube and duct
519 blower.JPG|Blower and duct
Image:519 vert term2.JPG|Vertical terminator
519 sweeptube.JPG|Sweep tube and duct
Image:519 triggerpickoff.JPG|Trigger pickoff
519 vert term2.JPG|Vertical terminator
Image:519 left rear.JPG
519 triggerpickoff.JPG|Trigger pickoff
Image:519 sweepswitch.JPG
519 left rear.JPG
Image:519 board2.JPG
519 sweepswitch.JPG
Image:519 board1.JPG
519 board2.JPG
Image:519 crt in shield.jpg
519 board1.JPG
Image:519 crt in shield2.jpg
519 hv psu.JPG  | high voltage power supply
Image:519 crt label.jpg
519 crt in shield.jpg
File:Tek-519 rate gen.png|Rate Generator (early)
519 crt in shield2.jpg
File:Tek-519 rate gen late.png|Rate Generator (late)
519 crt label.jpg
File:Tek-519 power supply.png|Power Supply
Tek-519 rate gen.png|Rate Generator (early)
File:Tek-519 heater supply and wiring.png|Heater Supply and Wiring
Tek-519 rate gen late.png|Rate Generator (late)
File:Tek-519 timebase gen.png|Timebase Generator
Tek-519 power supply.png|Power Supply
File:Tek-519 timing switch.png|Timing Switch
Tek-519 heater supply and wiring.png|Heater Supply and Wiring
File:Tek-519 timebase gate and unblanking.png|Timebase Gate and Unblanking
Tek-519 timebase gen.png|Timebase Generator
File:Tek-519 crt circuit.png|CRT Circuit
Tek-519 timing switch.png|Timing Switch
File:Tek-519 timebase trig and holdoff.png|Timebase Trigger and Holdoff
Tek-519 timebase gate and unblanking.png|Timebase Gate and Unblanking
File:Tek-519 cal step gen.png|Calibration Step Generator
Tek-519 crt circuit.png|CRT Circuit
File:Tek-519 trig sw and vert delay.png|Trigger Switch and Vertical Delay
Tek-519 timebase trig and holdoff.png|Timebase Trigger and Holdoff
Tek-519 cal step gen.png|Calibration Step Generator
Tek-519 trig sw and vert delay.png|Trigger Switch and Vertical Delay
Timkoeth 519 TWK 6541.jpg
Timkoeth 519 TWK 6537.jpg
Timkoeth 519 TWK 6529.jpg
Timkoeth 519 TWK 6509.jpg
Timkoeth 519 TWK 6448.jpg
Timkoeth 519 TIM 4443.jpg|Homebrew Mount for DSLR
Timkoeth 519 TWK 1379.jpg|800 ps (FWHM) pulse from [[109|Tek 109 pulse generator]], repetitive, 2 ns/div.
Timkoeth 519 TWK 6627.jpg|800 ps (FWHM) pulse from [[109|Tek 109 pulse generator]], 2 ns/div single shot taken with Nikon D3s
Tek 519 left hires.jpg
Tek 519 tx1.jpg
Tek 519 tx2.jpg
Tek 519 tx3.jpg
Tek 519C in feb 1 1963 tekweek.jpg|February 1, 1963 Tekweek referencing the T519C
</gallery>
</gallery>
* CRT photo courtesy of [http://www.collection.archivist.info collection.archivist.info]
* CRT photo courtesy of [http://www.collection.archivist.info collection.archivist.info]
* See Oscilloscope Cathode-Ray Tubes by Chuck Devere, page 30-35 [[http://www.slack.com/TE/TekConcepts/062-0852-01_CRTs_Jul69.pdf here]].
* See [[Media:062-0852-01.pdf | Oscilloscope Cathode-Ray Tubes by Chuck Devere]], page 30-35.
* See [http://www.timkoeth.com/?cat=5 Tim Koeth's Page on the Tektronix 519]
 
==Components==
{{Parts|519}}


[[Category:Tube scopes]]
[[Category:Monolithic tube scopes]]

Latest revision as of 09:51, 9 December 2023

Tektronix 519
1 GHz tube scope
Tek 519

Produced from 1961 to 1974

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

The Tektronix 519 is a high-speed oscilloscope made by Tektronix from 1961 until 1974. It was designed by Cliff Moulton, who also designed the Type 130 LC Meter.

Key Specifications

Channels One vertical channel
Bandwidth DC to 1 GHz
Rise time < 0.35 ns
Deflection < 10 V/div, CRTs individually calibrated
Sweep 2 ns/div to 1 μs/div
CRT 154-356, 154-308 for serial numbers ≥1017
Input impedance 125 Ω
Power consumption 650 W

Internals

No Vertical Amplifier

The 519 is very unusual in that it does not contain vertical amplifiers. The input signal is passively connected to the distributed vertical deflection plates of the CRT, which are driven single-ended. This allows the scope to have 1 GHz bandwidth. The vertical deflection factor is approximately 10 V/cm.

CRT

The viewing area is two centimeters vertical, six centimeters horizontal. The spot diameter on the CRT is 0.1 mm, which corresponds to 100 mV at the input connector. Each CRT was individually characterized for risetime and deflection sensitivity and the precise value was written on the CRT and on the CRT bezel. For serial numbers 1016 and below, the CRT part number is 154-356. For serial numbers 1017 and up, the CRT part number is 154-308.

125 Ω Input Impedance

The input to the 519 has an impedance of 125 Ω. The input connector is a special 125 Ω GR-874 connector made by Tektronix that is neither electrically nor mechanically compatible with the much more common 50 Ω GR-874 connector. Tek made a resistive impedance matching adapter, the 017-053, which presents a 50 Ω input (but attenuates the signal).

Rigid Coax Delay Line

To allow viewing of the leading edge of pulses, there is a rigid coaxial 45 ns delay line between the input and the CRT.

Note that 45 nanoseconds is an unusually short delay. For comparison, the delay line in a 547 is 170 ns. Keeping the delay short minimizes degradation of fast pulses, but it necessitates a trigger and sweep circuit with quick response.

A 519 can also be used with a pretrigger pulse generator like the 111.

Trigger and Sweep

The sweep is triggered using a 20 mA, 4 pF tunnel diode. The horizontal deflection ramp signal of a 519 is generated by a 4CX250F external anode, radial-beam tube that is cooled by forced air sent from a blower through a duct.

The total accelerating voltage of the 519 is 24 kV.

The 519 contains a calibration step generator that produces voltage steps with 100 picosecond rise time, and a rate generator that generates pulses with 500 ps rise times. The step generator utilizes a charged line which is discharged through a reed relay, while the rate generator uses a transistor in avalanche configuration. The reed relay in the step generator is tuned in part by listening to it.

Unusual Physical Construction

The physical construction and styling of the 519 differs from that of the other Tek scopes of the same period. There are multiple reasons for this. First, it has an unusually long CRT. Also, the large 125 Ω coaxial delay line (seen in the photo) had to fit inside the cabinet.

Finally, the 519 has an extra-large power transformer and a large blower for the 4CX250 tube. The mass of these extra components necessitated a larger, sturdier cabinet than, for example, the 545. The sheet aluminum used in the case of the 519 is thicker than that of the other Tek scopes of the period. The 519 weighs 99 pounds and consumes 650 watts.

Different CRT Bezels

The 519 came with two different bezels. Pictured in Tek Catalog 20 through 26 is the early version which was actually a camera mount designed to be compatible with the C19 camera. It had a unique removable part with a graticule that could be slid down such that it would not be in between the CRT beam and the camera lens. Most of the non-used area of the CRT faceplate was covered by the black plastic material of the graticule cover. This graticule cover was changed slightly as is shown in the pictures of the 519 in Tek Catalogs 27 and later. It still was designed to mount the C19 camera. (For what reason was the bezel design changed?)

The 519 is probably the only Tek scope to come standard with a camera mount for a bezel. You had to buy camera mounting frames as accessories for the other scopes.

Production

Early 519's in the '61-'66 period were calibrated in Plant 2 in a group managed by Bob Randall. Three of the men calibrating 519's in that period were Stan Griffiths, Dick Bellamy, and John A. (What is John's last name?) During this period, Cliff Moulton would visit the calibration operation to answer any questions that would arise as the scopes were being prepared for shipment to customers.

Later 519's were calibrated at Plant 2 Test-Final in a group managed by Jack Lyngdal. Two of the calibration people that worked there were Norm Jenkins and Jack. (What is Jack's last name?) Another man who calibrated 519's in this later period was Mark Balcom.

The distributed deflection plate delay network had to be hand-trimmed, which was done prior to putting it inside the CRT envelope. It is possible that this was done using a TDR.

519C: A 3 GHz Version of the 519

Tektronix Catalog 22 (mid'63-mid'64) refers to a modified (MOD 795) 519 with response extended to 3 GHz:

DC-to-3 GIGACYCLE OSCILLOSCOPE: This modified Type 519 Oscilloscope incorporates a coaxial-deflection crt to achieve a risetime of 0.13nsec, corresponding to a 3000-Mc bandwidth. Deflection factor is approximately 180v/cm. Usable viewing area is 2x4 cm. Consult your FE to learn about the advantages, limitations, and delivery time on this or other modified instruments."

A 1983 IEEE Transactions on Nuclear Science paper includes a chart that mentions in Figure 10 the 3 GHz 519C introduced in 1963. The 519C was sold to Lawrence Livermore Labs and the Nuclear Test Site. The 519C uses the T5192 CRT.

The 519 came with a set of adapters performing various functions such as interfacing the 125 Ω input impedance of the 519 with the more common 50 Ω impedance of many cables and instruments. One example is the 017-0019-00.

See Also

Pictures

Components

Some Parts Used in the 519

Part Part Number(s) Class Description Used in
120-0186-00 120-0186-00 Discrete component power transformer 519
4CX250F 154-0300-00 Vacuum Tube (Tetrode) beam power tetrode 519
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
6G11 154-0660-00 Vacuum Tube (Pentode) double sharp cut-off beam power pentode 125 132 519 067-0502-01 050-0551-00
T5191 154-0356-00 154-0308-00 CRT 1 GHz CRT 519
T5192 CRT CRT 519