108: Difference between revisions

From TekWiki
Jump to navigation Jump to search
No edit summary
No edit summary
(4 intermediate revisions by the same user not shown)
Line 1: Line 1:
{{Instrument Sidebar
|manufacturer=Tektronix
|model=108
|class=Pulse generator
|series=
|summary=1 ns rise-time pulse generator
|image=Tek 108 front.jpg
|caption=Tek 108 front
|introduced=1959
|discontinued=(?)
|designers=
|manuals=
* [[Media:070-205.pdf|Tektronix 108 Manual]] (PDF)
}}
The '''Tektronix 108''' is a 1 ns rise-time pulse generator  
The '''Tektronix 108''' is a 1 ns rise-time pulse generator  
intended for calibration of the [[517]].
intended for calibration of the [[517]].  It is the predecessor of the more complex and faster [[109]].


It is the predecessor of the
Repetition rate of the 108 is 240 Hz and the maximum pulse amplitude is 10 V<sub>p</sub> into a 50 Ω load.  
more complex and faster [[109]].
It uses a [[mercury switch]] and [[selenium rectifiers]]. The output is through an [[N connector]].
Repetition rate of the 108 is 240 pps and the  
maximum pulse amplitude is 10&nbsp;Vpk into 50 Ohm load.  
It uses a [[mercury switch]] and [[selenium rectifiers]].
The price in July 1959 was $125.  The output is through an
[[N connector]].


Referring to the output network photo below, current flows in from the left
The price in July 1959 was $125.   
through the 1k resistor and charges the four red 0.1 uF capacitors in parallel.
When the mercury switch (terminals visible at lower right) closes, the capacitors are
suddenly connected to the output load of the pulse generator, causing a sharp step in the
output voltage.  The starting voltage of the step is typically 0V.  The final voltage is
adjustable, both in polarity and magnitudeThe range is approximately -10V to 10V.


* [http://w140.com/tek_108.pdf Tektronix 108 Manual (PDF)]
Referring to the output network photo below, current flows in from the left through the 1 kΩ resistor and charges the four red 0.1 μF capacitors in parallel.
When the mercury switch (terminals visible at lower right) closes, the capacitors are suddenly connected to the output load of the pulse generator, causing a sharp step in the output voltage. 
The starting voltage of the step is typically 0 V.  The final voltage is adjustable, both in polarity and magnitude.  The range is approximately −10 V to 10 V.


==Pictures==
<gallery>
<gallery>
Image:Tek 108 front.jpg|Front view
Tek 108 front.jpg | Front view
File:Tek 108 schem.png|Schematic
Tek 108 schem.png | Schematic
Image:Tek 108 left.jpg|Left view, mercury switch
Tek 108 left.jpg|Left view, mercury switch
Image:Tek 108 right.jpg|Right view, selenium recitifier
Tek 108 right.jpg | right view, selenium recitifier
Image:Tek 108 output network.jpg|Output network, rear of N connector
Tek 108 output network.jpg | Output network, rear of N connector
Image:Tek 108 cat.jpg|Page 190 in the 1959 Catalog
Tek 108 cat.jpg|Page 190 in the 1959 Catalog
Image:Tek 108 mercury switch.png|Mercury switch
Tek 108 mercury switch.png | Mercury switch
</gallery>
</gallery>


[[Category:Pulse generators]]
[[Category:Pulse generators]]
[[Category:Introduced in 1959]]

Revision as of 07:05, 18 August 2021

Tektronix 108
1 ns rise-time pulse generator
Tek 108 front

Produced from 1959 to (?)

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

The Tektronix 108 is a 1 ns rise-time pulse generator intended for calibration of the 517. It is the predecessor of the more complex and faster 109.

Repetition rate of the 108 is 240 Hz and the maximum pulse amplitude is 10 Vp into a 50 Ω load. It uses a mercury switch and selenium rectifiers. The output is through an N connector.

The price in July 1959 was $125.

Referring to the output network photo below, current flows in from the left through the 1 kΩ resistor and charges the four red 0.1 μF capacitors in parallel. When the mercury switch (terminals visible at lower right) closes, the capacitors are suddenly connected to the output load of the pulse generator, causing a sharp step in the output voltage. The starting voltage of the step is typically 0 V. The final voltage is adjustable, both in polarity and magnitude. The range is approximately −10 V to 10 V.

Pictures