S-4: Difference between revisions

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discontinued=1990 |
discontinued=1990 |
manuals=
manuals=
* [[Media:070-0896-01.pdf|Tektronix S-4 Instruction Manual, Revised OCT 1986 (OCR, PDF)]]
* [http://w140.com/tek_s4.pdf Tektronix S-4 Manual, copyright 1969 (PDF)]
* [http://w140.com/tek_s4.pdf Tektronix S-4 Manual, copyright 1969 (PDF)]
* [http://w140.com/tek_S4_1985.pdf Tektronix S-4 Manual, revised 1985 (PDF)]
* [http://w140.com/tek_S4_1985.pdf Tektronix S-4 Manual, revised 1985 (PDF)]
* [http://w140.com/frye_s4_gate.pdf George Frye's Explanation of S-4 sampler in October 1968 Service Scope (PDF)]
* [http://w140.com/frye_s4_gate.pdf George Frye's Explanation of S-4 sampler in October 1968 Service Scope (PDF)]
* [[Media:Tek s-4 fcp april 1969 - OCR.pdf|Tektronix S-4 Factory Calibration Procedure, April 1969 (PDF, OCR)]]
}}
}}
The '''Tektronix S-4''' is a sampling head for 7000- and 3S-series samplers. It was designed by [[George Frye]] and [[introduced in 1968]]. It is the fastest of the S-series plug-in samplers.  
The '''Tektronix S-4''' is a sampling head for 7000- and 3S-series samplers.
It was designed by [[George Frye]] and [[introduced in 1968]].
It is the fastest of the S-series plug-in samplers.  


{{BeginSpecs}}
{{BeginSpecs}}
Line 18: Line 22:
{{Spec | Bandwidth | 14.5 GHz }}
{{Spec | Bandwidth | 14.5 GHz }}
{{Spec | Input impedance | 50 Ω (terminated [[SMA connector]])}}
{{Spec | Input impedance | 50 Ω (terminated [[SMA connector]])}}
{{Spec | Input range | operating, 1 V<sub>p-p</sub>; max. safe overload, ±5 V }}
{{Spec | Input range | 1 V<sub>p-p</sub> (operating) }}
{{Spec | Maximum input |  ±5 V max. non-destructive  }}
{{Spec | Noise | < 5 mV}}
{{Spec | Noise | < 5 mV}}
{{Spec | Features |
{{Spec | Features |
Line 26: Line 31:


==Internals==
==Internals==
The S-4 sampling gate is based upon a traveling wave trapped-charge transmission line in which the sampling window is set by the propagation time of a pulse edge through a thick-film transmission line. This technique requires only a sharp pulse edge rather than a precise pulse width, which is harder to generate.
The [[Sampler#Six-Diode_Sampler|S-4 sampling gate]] is based upon a traveling wave trapped-charge transmission line  
in which the sampling window is set by the propagation time of a pulse edge through a thick-film transmission line.  
This technique requires only a sharp pulse edge rather than a precise pulse width, which is harder to generate.
The sampling diodes are housed in a special coaxial connector that provides a high bandwidth signal path.
The sampling diodes are housed in a special coaxial connector that provides a high bandwidth signal path.


To disassemble the sampler hybrid, first remove it from the sampler board as per the manual. Remove the input
To disassemble the sampler hybrid, first remove it from the sampler board as per the manual.
connector using a 7/32" wrench and remove the 20 dB attenuator with small plyers. The ceramic board is held
Remove the input connector using a 7/32" wrench and remove the 20 dB attenuator with small pliers.
to the housing using roll pins that can be pressed out with a 0.030" pin punch. The hybrid has six diodes,
The ceramic board is held to the housing using roll pins that can be pressed out with a 0.030" pin punch.
each about 0.75mm square. The cathodes are glued to the gold substrate with conductive epoxy and the anodes
The hybrid has six diodes, each about 0.75mm square.
are wire-bonded (twice) over a gap to the next step in the strobe line. It appears that a standard beam-lead
The cathodes are glued to the gold substrate with conductive epoxy and the anodes
diode may fit across the gap but cleanly removing a failed diode without damaging the substrate would be
are wire-bonded (twice) over a gap to the next step in the strobe line.
quite difficult.
It appears that a standard beam-lead diode may fit across the gap
but cleanly removing a failed diode without damaging the substrate would be quite difficult.


==Links==
==Links==
Line 46: Line 54:
Tek-s-4.jpg
Tek-s-4.jpg
Tek s4.jpg
Tek s4.jpg
S4_top.jpg|Top view of the S4 plug-in
S4_top.jpg | Top view of the S4 plug-in
S4_left.jpg|Left view
S4_left.jpg | Left view
S4_right.jpg|Right view
S4_right.jpg |Right view
S4 schem.png|Schematic
S4 schem.png | Schematic
Tektronix-S4-sampler-board-strobe.jpg|Sampler board, strobe side
Tektronix-S4-sampler-board-strobe.jpg | Sampler board, strobe side
Tektronix-S4-sampler-board-preamp.jpg|Sampler board, preamp side
Tektronix-S4-sampler-board-preamp.jpg | Sampler board, preamp side
Tektronix-S4-sampler-board-hybrid.jpg|Sampler board, disassembled with parts orientation
Tektronix-S4-sampler-board-hybrid.jpg | Sampler board, disassembled with parts orientation
Tektronix-S4-hybrid-internal.jpg|Microphotograph of sampler hybrid
Tektronix-S4-hybrid-internal.jpg | Microphotograph of sampler hybrid
Tek s-4 in 7s11.jpg|S-4 in [[7S11]]
S-4_B15_prototype.JPG | S-4 B-prototype, no difference to standard S-4
7s11-s4.jpg||S-4 in [[7S11]]
Tek s-4 in 7s11.jpg | S-4 in [[7S11]]
7s11-s4.jpg | S-4 in [[7S11]]
</gallery>
</gallery>




[[Category:7000 and 3S series sampling heads]]
[[Category:7000 and 3S series sampling heads]]

Revision as of 14:32, 23 February 2021

Template:Plugin Sidebar 2 The Tektronix S-4 is a sampling head for 7000- and 3S-series samplers. It was designed by George Frye and introduced in 1968. It is the fastest of the S-series plug-in samplers.

Key Specifications

Rise time 25 ps (observed with S-50 or S-52, 35 ps)
Bandwidth 14.5 GHz
Input impedance 50 Ω (terminated SMA connector)
Input range 1 Vp-p (operating)
Maximum input ±5 V max. non-destructive
Noise < 5 mV
Features
  • trigger signal pick-off for internal triggering

Internals

The S-4 sampling gate is based upon a traveling wave trapped-charge transmission line in which the sampling window is set by the propagation time of a pulse edge through a thick-film transmission line. This technique requires only a sharp pulse edge rather than a precise pulse width, which is harder to generate. The sampling diodes are housed in a special coaxial connector that provides a high bandwidth signal path.

To disassemble the sampler hybrid, first remove it from the sampler board as per the manual. Remove the input connector using a 7/32" wrench and remove the 20 dB attenuator with small pliers. The ceramic board is held to the housing using roll pins that can be pressed out with a 0.030" pin punch. The hybrid has six diodes, each about 0.75mm square. The cathodes are glued to the gold substrate with conductive epoxy and the anodes are wire-bonded (twice) over a gap to the next step in the strobe line. It appears that a standard beam-lead diode may fit across the gap but cleanly removing a failed diode without damaging the substrate would be quite difficult.

Links


Pictures

  • Top view of the S4 plug-in

    Top view of the S4 plug-in

  • Left view

    Left view

  • Right view

    Right view

  • Schematic

    Schematic

  • Sampler board, strobe side

    Sampler board, strobe side

  • Sampler board, preamp side

    Sampler board, preamp side

  • Sampler board, disassembled with parts orientation

    Sampler board, disassembled with parts orientation

  • Microphotograph of sampler hybrid

    Microphotograph of sampler hybrid

  • S-4 B-prototype, no difference to standard S-4

    S-4 B-prototype, no difference to standard S-4

  • S-4 in 7S11

    S-4 in 7S11

  • S-4 in 7S11

    S-4 in 7S11

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