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The Tektronix S-52 is a pulse generator head compatible  
{{Plugin Sidebar 2|
with S-series sampling units  
title=Tektronix S-52 |
summary=Pulse Generator |
image=Tek-s52-front.jpg |
caption=S-52 head, front panel |
series=[[3S2]], [[7S11]], [[7S12]] Sampling Plugins |
introduced=1971 |
discontinued=1990 |
manuals=
* [http://w140.com/Tek_S-52_Manual.pdf Tektronix S-52 Manual (PDF)]
* [http://w140.com/tek_s-52_cleaned.pdf Tektronix S-52 Manual (cleaned, PDF)]
}}
 
The '''Tektronix S-52''' is a pulse generator head compatible with S-series sampling units  
like the [[3S2]], [[7S11]], and [[7S12]].   
like the [[3S2]], [[7S11]], and [[7S12]].   
It puts out a 200mV pulse into a load of 50 ohms. 
The pulse has a rise-time of 25 ps or less. 
The output is an [[Connectors#SMA|SMA connector]]. 
In addition to the main pulse output,
the S-52 also produces a pretrigger pulse 85 ns before the main pulse. 
The jitter between the pretrigger pulse and the main pulse
is specified as less than 10 ps. 
The pretrigger pulse uses an [[Connectors#BSM|BSM connector]].


The S-52 generates the main output pulse  
It puts out a 200 mV pulse into a load of 50 Ω.  The pulse has a rise time of 25 ps or less. 
using a [[tunnel diodes|tunnel diode]]
The output is an [[SMA connector]].   
with part number [[153-0400-00]].   
 
The S-52 is [[S-50#Comparison_of_S-50_and_S-52|similar to the S-50]], but the  
In addition to the main pulse output, the S-52 also produces a pre-trigger pulse 85 ns before the main pulse.   
S-50 has twice the pulse amplitude.   
The delay is generated with a digital counter,
The reason for this is that the S-52 has a 48-ohm
and jitter between the pre-trigger pulse and the main pulse is specified as less than 10 ps.
resistor between the output tunnel diode and the output connector,
The pre-trigger pulse uses a [[BSM connector]].
while the S-50 has no such resistor. Although the S-52 produces a smaller
 
pulse, its output impedance is much better controlled than that of the S-50,
{{BeginSpecs}}
and the output resistor may also provide some limited protection for the output
{{Spec | Rise time | < 25 ps}}
tunnel diode.
{{Spec | Output amplitude | 200 mV into 50 Ω (SMA)}}
{{Spec | Output impedance | 50 Ω «reverse terminated» (i.e. having controlled source impedance) }}
{{Spec | Pre-trigger output | 85 ns before main pulse (jitter < 10 ps), +1 V into 50 Ω (BSM) }}
{{EndSpecs}}
 
==Internals==


* [http://w140.com/Tek_S-52_Manual.pdf Tektronix S-52 Manual (PDF)]
The S-52 generates the main output pulse using a 50 mA low-capacitance [[tunnel diodes|tunnel diode]] with part number [[153-0400-00]]. 
* [http://w140.com/tek_s-52_cleaned.pdf Tektronix S-52 Manual (cleaned, PDF)]
 
The S-52 is [[S-50#Comparison_of_S-50_and_S-52|similar to the S-50]],
but the S-50 has twice the pulse amplitude. 
The reason for this is that the S-52 has a 48 Ω resistor between the output tunnel diode
and the output connector providing back termination, while the S-50 has no such resistor.
Although the S-52 produces a smaller pulse, its output impedance is much better controlled than that of the S-50,
and the output resistor may also provide some limited protection for the output tunnel diode.
 
==Links==
* [http://www.amplifier.cd/Test_Equipment/Tektronix/Tektronix_7000_series_special/S-52.html Tek S-52 page @ amplifier.cd]
* [http://www.barrytech.com/tektronix/tek7000/teks52.html Tektronix S-52 @ barrytech.com]
 
==Pictures==
 
<gallery>
Tek-s52-front.jpg | S-52 front
7s12-s6-s52-f.jpg | S-52 pulse generator and [[S-6|S-6 sampling head]] in a [[7S12|7S12 TDR/Sampler plugin]]
</gallery>
 
===Internal===
<gallery>
Tek-s52-1.jpg    | A1 Timing board (right)
Tek-s52-2.jpg    | A3 Trigger board (left)
Tek-s52-3.jpg    | A2 Tunnel Diode Control board (center)
Tek-s52-4.jpg    | Tunnel diode mount
Tek-s52-diode-mount.jpg | Tunnel diode mount, detail
Tek_s-52_schem2.png |Schematic
</gallery>


===Measurements===
<gallery>
<gallery>
Image:Tek s-52.jpg
7s12-self-portrait.jpg | TDR "Self Portrait" — pulse reflected on S-6 "through" path (approx. 120 ps one way)
Image:Tek s52.jpg
7s12-s52-incident.jpg | 7S12 displaying the incident pulse from an S-52 (nom. < 25 ps) through an S-6 head (nom. < 30 ps). Displayed rise time ~35 ps confirms spec.
File:Tek_s-52_schem2.png
7s12-s52-pulse-1.jpg | Full pulse pattern of a 7S12/S-52 in real time (top trace) and sampled (bottom trace) shown simultaneously on [[7844]].  7S12 trace at slowest possible sweep.
7s12-s52-pulse-2.jpg | S-52 pulse in real time (top trace) and sampled (bottom trace) shown simultaneously on [[7844]].  Approximately equal time scales.
</gallery>
</gallery>
[[Category:7000 and 3S series sampling heads]]

Revision as of 17:55, 3 February 2018

Template:Plugin Sidebar 2

The Tektronix S-52 is a pulse generator head compatible with S-series sampling units like the 3S2, 7S11, and 7S12.

It puts out a 200 mV pulse into a load of 50 Ω. The pulse has a rise time of 25 ps or less. The output is an SMA connector.

In addition to the main pulse output, the S-52 also produces a pre-trigger pulse 85 ns before the main pulse. The delay is generated with a digital counter, and jitter between the pre-trigger pulse and the main pulse is specified as less than 10 ps. The pre-trigger pulse uses a BSM connector.

Key Specifications

Rise time < 25 ps
Output amplitude 200 mV into 50 Ω (SMA)
Output impedance 50 Ω «reverse terminated» (i.e. having controlled source impedance)
Pre-trigger output 85 ns before main pulse (jitter < 10 ps), +1 V into 50 Ω (BSM)

Internals

The S-52 generates the main output pulse using a 50 mA low-capacitance tunnel diode with part number 153-0400-00.

The S-52 is similar to the S-50, but the S-50 has twice the pulse amplitude. The reason for this is that the S-52 has a 48 Ω resistor between the output tunnel diode and the output connector providing back termination, while the S-50 has no such resistor. Although the S-52 produces a smaller pulse, its output impedance is much better controlled than that of the S-50, and the output resistor may also provide some limited protection for the output tunnel diode.

Links

Pictures

Internal

Measurements