S-1: Difference between revisions

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(Added MAY 1985 revision of the manual, which includes changes to Schottky sampling diodes.)
 
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|manuals=
|manuals=
* [[Media:070-0763-00.pdf|Tektronix S-1 Manual]] (OCR)
* [[Media:070-0763-00.pdf|Tektronix S-1 Manual]] (OCR)
* [[Media:070-0763-00_1985may.pdf|Tektronix S-1 Manual, 1985 revision]] (OCR)
* [[Media:Tek s-1 whole foldouts.pdf|Tektronix S-1 Manual Foldouts]] (whole, color)
* [[Media:Tek s-1 whole foldouts.pdf|Tektronix S-1 Manual Foldouts]] (whole, color)
* [[Media:Tek type S-1 factory cal proc.pdf|Tektronix Type S-1 Factory Calibration Procedure (PDF)]]
* [[Media:Tek type S-1 factory cal proc.pdf|Tektronix Type S-1 Factory Calibration Procedure (PDF)]]

Latest revision as of 01:36, 27 November 2024

Tektronix S-1
Sampling Head
S-1 head

Compatible with 7000 and 3S series sampling heads

Produced from 1967 to 1989

Manuals
Manuals – Specifications – Links – Pictures

The S-1 sampling plug-in head provides a single GR-874 50 Ω input with a 350 ps rise-time.

The S-1 can be used with the 7000 series of sampling plug-ins, as well as the 3S series of sampling units.

Key Specifications

Rise time 350 ps
Bandwidth 1 GHz
Operating input voltage range −1 V to +1 V with ≤1 Vp-p signals
Maximum single sample step 500 mV
Maximum input voltage ±5 VDC or sine of 10 Vp-p up to 10 MHz
Input impedance 50 Ω ±1% (GR-874)
Noise < 2 mV
Features trigger pickoff for internal triggering

Links

Documents Referencing S-1

Document Class Title Authors Year Links
Service Scope 53 Dec 1968.pdf Article Digital Systems Come Of Age John Bowne 1968
Service scope dec 1968 ocr.pdf Article Digital Systems Come of Age John Bowne 1968
Service Scope 52 Oct 1968.pdf Article The State of the Art in Sampling Al Zimmerman 1968
42W-5850.pdf Application Note Preventing Sampling Head Overdrive and Static Damage Gary Mott 1985

Internals

The S-1 uses a two-diode sampling gate which has relatively high "kick-out" (leakage of the strobe signal out of the input).

The manual cautions,

Operating the sampling head without the input connector terminated by a 50 Ω resistor or coaxial cable will cause a vertical shift of the zero signal baseline by a few millivolts. This is caused by the strobe kickout signal being reflected from the open input connector, and arriving back at the sampling bridge while the bridge is conducting.

The sampling bridge strobe signal is generated by an avalanche transistor followed by a step recovery diode, called snap-off diode in Tek lingo.

Pictures