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{{Plugin Sidebar 2|
{{Plugin Sidebar
title=Tektronix 4S1|
|manufacturer=Tektronix
summary=Dual trace sampling unit|
|series=661
image=4S1 front.jpg |  
|type=4S1
caption=4S1 front view image needed |
|summary=Dual channel sampling plugin
introduced=1962 |discontinued=(?) |
|image=4S1 front.jpg  
series=[[661]]|
|caption=4S1 front view image  
manuals=
|introduced=1962  
* [http://w140.com/kurt/4s1.pdf 4S1 manual without schematics]
|discontinued=(?)  
* [http://w140.com/kurt/4s1/ 4S1 schematics]
|designers=
* [http://w140.com/tek_4s1_late.pdf Late Issue Tektronix 4S1 Manual (PDF)]
|manuals=
* [http://w140.com/tek_661_4s1_5t1_preliminary.pdf Tek 661 4S1 5T1 Preliminary Manual (PDF)]
* [[Media:070-329.pdf|Tektronix 4S1 Manual (late)]]
* [https://w140.com/tek_661_4s1_5t1_preliminary.pdf Tek 661 4S1 5T1 Preliminary Manual]
* [[Media:Tek 4s1 cal outline.pdf|Tektronix 4S1 Calibration Outline]] (OCR)
}}
}}
The '''Tektronix Type 4S1''' is a dual-trace [[sampling_oscilloscope|sampling]] unit for the [[661]].
The '''Tektronix Type 4S1''' is a dual-trace [[sampling_oscilloscope|sampling]] unit for the [[661]].
The 4S1 was developed in 1961 and [[introduced in 1962]].
The 4S1 was developed in 1961 and [[introduced in 1962]].


Each channel has a trigger pickoff, a [[delay line]], and a sampler.  Specified rise time is 350 ps.
Each channel has a trigger pick-off, a [[delay line]], and a sampler.  Specified rise time is 350 ps.
The sampling pulses for each channel are generated by a step recovery diode.  
The sampling pulses for each channel are generated by a step recovery diode.  
{{BeginSpecs}}
{{Spec | Rise time | 350 ps }}
{{Spec | Deflection | 2 mV/Div to 200 mV/Div, 1−2−5 }}
{{Spec | Input impedance | 50 Ω }}
{{EndSpecs}}
''Please add''


==Description==
==Description==
Line 22: Line 31:
The sampling pulses are fed to a sampling bridge made of four [[sampling diodes|GaAs diodes]].   
The sampling pulses are fed to a sampling bridge made of four [[sampling diodes|GaAs diodes]].   
These diodes are fragile and exact replacements are hard to find.   
These diodes are fragile and exact replacements are hard to find.   
People have improvised replacements using modern integrated Schottky  
They have however been successfully [[Sampling diodes|replaced by modern Schottky diodes]], e.g. Agilent HSMS-28x series.
diodes such as those in HP/Agilent's HSMS-28x series.


=== Dual-trace and X-Y Modes ===
=== Dual-trace and X-Y Modes ===
The 4S1 has a dual-trace mode, where the A waveform and the B waveform  
The 4S1 has a dual-trace mode, where the A waveform and the B waveform are both displayed in the
are both displayed in the time domain at the same time with a single  
time domain at the same time with a single trigger source and a single equivalent-time sweep rate.   
trigger source and a single equivalent-time sweep rate.  Another mode  
Another mode is called "A vert/B horiz".  This mode is used in conjunction with an X-Y mode switch  
is called "A vert/B horiz".  This mode is used in conjunction with  
on the panel of the 661. The signals enter the 4S1 through [[GR-874 connector]]s on the front panel.
an X-Y mode switch on the panel of the 661. The signals enter the 4S1
through [[GR-874 connector]]s on the front panel.


=== Trigger Amplifier ===
=== Trigger Amplifier ===
The 4S1 uses an unusual trigger amplifier with two trigger signal paths.  One path is for low frequencies, the other for high frequencies.
The 4S1 uses an unusual trigger amplifier with two trigger signal paths.   
One path is for low frequencies, the other for high frequencies.  
(A similar approach was also used in the main vertical signal path of the [[7A29]] several years later.)
(A similar approach was also used in the main vertical signal path of the [[7A29]] several years later.)


From serial number 101 to 1349, the low frequency path starts with a 25 kΩ resistor that DC-couples the input signal to a  
From serial number 101 to 1349, the low frequency path starts with a 25 kΩ resistor that DC-couples the input signal to a [[2N1429]] PNP emitter-follower stage.   
[[2N1429]] PNP emitter-follower stage.  After that is a [[151-103]] NPN common-emitter.  The high frequency path starts
After that is a [[151-103]] NPN common-emitter.  The high frequency path starts with a trigger pick-off transformer on the input.   
with a trigger pickoff transformer on the input.  The pickoff signal feeds a common-base amplifier
The pick-off signal feeds a common-base amplifier that uses a [[2N700]] PNP transistor.
that uses a [[2N700]] PNP transistor. The low frequency and high frequency trigger paths meet at the trigger output of the
The low frequency and high frequency trigger paths meet at the trigger output of the 4S1.   
4S1.  From there, the trigger signal passes through the 661, and into a [[5T1]] or [[5T3]].  4S1 units with serial number
From there, the trigger signal passes through the 661, and into a [[5T1]] or [[5T3]].   
1350 and up use a slightly less complex trigger amplifier circuit.  The later circuit uses a [[TA2333]] silicon NPN transistor
 
to amplify the entire frequency range.
4S1 units with serial number 1350 and up use a slightly less complex trigger amplifier circuit, with a [[TA2333]] silicon NPN transistor amplifying the entire frequency range.


=== Comparison with S1 Sampling Heads ===
=== Comparison with S-1 Sampling Heads ===
The sampler board in the 4S1 is roughly equivalent to a pair of [[S-1]] sampling heads.
The sampler board in the 4S1 is roughly equivalent to a pair of [[S-1|S-1 sampling heads]].
A short piece of RG/174 coax connects the 661 timing pulse coaxial connector to the
A short piece of RG-174 coax connects the 661 timing pulse coaxial connector to the [[SMB connector]] timing pulse input on the 4S1 sampler board.   
[[SMB connector]] timing pulse input on the 4S1 sampler board.  This signal triggers
This signal triggers a blocking oscillator which drives a [[snap-off diode]], D2004, which generates the fast falling edge for the channel A and B sampling bridges.   
a blocking oscillator which drives a [[snap-off diode]], D2004, which generates the fast
The 4S1 uses [[7586|7586 nuvistor triodes]] as high-impedance buffers between the sampling bridge and the amplification that follows.
falling edge for the channel A and channel B sampling bridges.  The 4S1 uses [[7586]]
triodes as high-impedance buffers between the sampling bridge and the amplification that
follows.


The 4S1 has a main chassis and sub-chassis that plug into it.
The 4S1 has a main chassis and sub-chassis that plug into it.
There is a sub-chassis extension, part number 012-069, that allows maintenance of the
A sub-chassis extension, part number [[012-069]], allows maintenance of the sub-chassis.
sub-chassis.
 
==Specifications==
[[Category:Specifications needed]] ''please add''


==Pictures==
==Pictures==


<gallery>
<gallery>
Image:4s1_top.jpg|top view of 4S1
Tek 4s1 front.jpeg
Image:4s1_timing_pulse_connection.jpg|Coaxial interconnect from timing plug-in goes through the mainframe, into the 4S1, and ends here, at the sampler.
4s1_top.jpg|top view of 4S1
Image:4s1_sampling_bridge.jpg|This is the sampler.  The GaAs sampling diodes are arranged in a diamond shape and are directly connected to the socket from the delay line.
4s1_timing_pulse_connection.jpg|Coaxial interconnect (using [[Gremar connector]]s) from the timing plug-in goes through the mainframe, into the 4S1, and ends here, at the sampler.
Image:4s1_delay_connection.jpg|The delay line is a coil of coax going from the trigger pickoff to the sampler.
4s1_sampling_bridge.jpg|This is the sampler.  The GaAs sampling diodes are arranged in a diamond shape and are directly connected to the socket from the delay line.
File:Tek 4s1 trigger takeoff.png|LF and HF trigger pickoff
4s1_delay_connection.jpg|The delay line is a coil of coax going from the trigger pickoff to the sampler.
File:Tek 661 pickoff 1.jpg|trigger pickoff
Tek 4s1 trigger takeoff.png|LF and HF trigger pickoff
File:Tek 661 pickoff 2.jpg|trigger pickoff  
Tek 661 pickoff 1.jpg|trigger pickoff
File:Tek 4s1 bottom wiring.jpg|Bottom wiring
Tek 661 pickoff 2.jpg|trigger pickoff  
File:Tek 4s1 dual trace card top.jpg|Dual trace card
Tek 4s1 bottom wiring.jpg|Bottom wiring
File:Tek 4s1 dual trace card front.jpg|Dual trace card
Tek 4s1 dual trace card top.jpg|Dual trace card
File:Tek 4s1 dual trace card rear.jpg|Dual trace card
Tek 4s1 dual trace card front.jpg|Dual trace card
File:Tek 4s1 inverter card top.jpg|Inverter card
Tek 4s1 dual trace card rear.jpg|Dual trace card
File:Tek 4s1 inverter card front.jpg|Inverter card
Tek 4s1 inverter card top.jpg|Inverter card
File:Tek 4s1 inverter card rear.jpg|Inverter card
Tek 4s1 inverter card front.jpg|Inverter card
File:Tek 4s1 memory card top.jpg|Memory card
Tek 4s1 inverter card rear.jpg|Inverter card
File:Tek 4s1 memory card front.jpg|Memory card
Tek 4s1 memory card top.jpg|Memory card
File:Tek 4s1 memory card rear.jpg|Memory card
Tek 4s1 memory card front.jpg|Memory card
File:4S1 memory card front.jpg|Memory card front - solid state version
Tek 4s1 memory card rear.jpg|Memory card
File:4S1 memory card back.jpg|Memory card rear - solid state version
4S1 memory card front.jpg|Memory card front - solid state version
File:Tek 4s1 amp card top.jpg|Amp card
4S1 memory card back.jpg|Memory card rear - solid state version
File:Tek 4s1 amp card front.jpg|Amp card
Tek 4s1 amp card top.jpg|Amp card
File:Tek 4s1 amp card rear.jpg|Amp card
Tek 4s1 amp card front.jpg|Amp card
File:Tek 4s1 sampler top.jpg|Sampler card
Tek 4s1 amp card rear.jpg|Amp card
File:Tek 4s1 sampling card.jpg|Sampler card
Tek 4s1 sampler top.jpg|Sampler card
File:Tek 4s1 sampler rear.jpg|Sampler card
Tek 4s1 sampling card.jpg|Sampler card
Tek 4s1 sampler rear.jpg|Sampler card
</gallery>
</gallery>
{{Parts|4S1}}


[[Category:661 plugins]]
[[Category:661 plugins]]
[[Category:Sampling plugins]]
[[Category:Sampling plugins]]
[[Category:GR874]]

Latest revision as of 09:53, 20 July 2023

Tektronix 4S1
Dual channel sampling plugin
4S1 front view image

Compatible with 661

Produced from 1962 to (?)

Manuals
Manuals – Specifications – Links – Pictures

The Tektronix Type 4S1 is a dual-trace sampling unit for the 661. The 4S1 was developed in 1961 and introduced in 1962.

Each channel has a trigger pick-off, a delay line, and a sampler. Specified rise time is 350 ps. The sampling pulses for each channel are generated by a step recovery diode.

Key Specifications

Rise time 350 ps
Deflection 2 mV/Div to 200 mV/Div, 1−2−5
Input impedance 50 Ω

Please add

Description

Sampling Bridge

The sampling pulses are fed to a sampling bridge made of four GaAs diodes. These diodes are fragile and exact replacements are hard to find. They have however been successfully replaced by modern Schottky diodes, e.g. Agilent HSMS-28x series.

Dual-trace and X-Y Modes

The 4S1 has a dual-trace mode, where the A waveform and the B waveform are both displayed in the time domain at the same time with a single trigger source and a single equivalent-time sweep rate. Another mode is called "A vert/B horiz". This mode is used in conjunction with an X-Y mode switch on the panel of the 661. The signals enter the 4S1 through GR-874 connectors on the front panel.

Trigger Amplifier

The 4S1 uses an unusual trigger amplifier with two trigger signal paths. One path is for low frequencies, the other for high frequencies. (A similar approach was also used in the main vertical signal path of the 7A29 several years later.)

From serial number 101 to 1349, the low frequency path starts with a 25 kΩ resistor that DC-couples the input signal to a 2N1429 PNP emitter-follower stage. After that is a 151-103 NPN common-emitter. The high frequency path starts with a trigger pick-off transformer on the input. The pick-off signal feeds a common-base amplifier that uses a 2N700 PNP transistor. The low frequency and high frequency trigger paths meet at the trigger output of the 4S1. From there, the trigger signal passes through the 661, and into a 5T1 or 5T3.

4S1 units with serial number 1350 and up use a slightly less complex trigger amplifier circuit, with a TA2333 silicon NPN transistor amplifying the entire frequency range.

Comparison with S-1 Sampling Heads

The sampler board in the 4S1 is roughly equivalent to a pair of S-1 sampling heads. A short piece of RG-174 coax connects the 661 timing pulse coaxial connector to the SMB connector timing pulse input on the 4S1 sampler board. This signal triggers a blocking oscillator which drives a snap-off diode, D2004, which generates the fast falling edge for the channel A and B sampling bridges. The 4S1 uses 7586 nuvistor triodes as high-impedance buffers between the sampling bridge and the amplification that follows.

The 4S1 has a main chassis and sub-chassis that plug into it. A sub-chassis extension, part number 012-069, allows maintenance of the sub-chassis.

Pictures


Some Parts Used in the 4S1

Part Part Number(s) Class Description Used in
120-0304-00 120-0304-00 Discrete component inductor 4S1 4S2
2N700 153-505 153-506 153-507 153-508 153-512 153-513 Discrete component diffused-base germanium PNP transistor 110 4S1 N
7308 154-0371-00 Vacuum Tube (Dual Triode) dual triode 3S76 3S3 4S1 4S2A 4S3 S-311
7586 154-0306-00 Vacuum Tube (Triode) Nuvistor triode M 1A1 1A2 1A5 10A2 10A2A 11B1 11B2A 321 321A 3A1 3A1S 3A3 3A5 3A6 3A7 3A8 3A74 3S76 3T77 3T77A 3B5 4S1 4S2 6R1 6R1A 9A1 9A2 82 86 S-311