P6032: Difference between revisions

From TekWiki
Jump to navigation Jump to search
No edit summary
No edit summary
 
(24 intermediate revisions by 6 users not shown)
Line 1: Line 1:
The P6032 is a high-speed cathode-follower probe.
{{Probe Sidebar
There is a miniature triode in the probe body.
|manufacturer=Tektronix
Like all active probes, the P6032 requires power, and for this reason it has two connectors at the scope end of cable.   
|model=P6032
There is a four-pin power connector and a 50-Ohm GR connector for the signal.   
|summary=850 MHz cathode-follower probe
|for=1S1
|image=Tek p6032 kit 1.jpg
|caption=P6032
|introduced=1962
|discontinued=(?)
|designers=Murlan Kaufman
|manuals=
* [[Media:070-327.pdf|Tektronix P6032 Manual]]
* [[Media:Tek_P6032_preliminary_manual_1962.pdf|Tektronix P6032 Preliminary Manual]]
}}
The '''Tektronix P6032''' is an 850 MHz cathode-follower probe, intended for use with samplers such as the [[1S1]], [[3S1]], [[3S76]], [[4S1]], and [[4S2]].
It was designed by [[Murlan Kaufman]].
 
There is an [[EC1000]] subminiature triode in the probe body, which is why it gets slightly warm during operation.  
 
Like all active probes, the P6032 requires power, and for this reason it has two connectors at the scope end of the cable.   
There is a four-pin power connector and a 50 Ω [[GR-874 connector]] for the signal.   
 
The triode has limited dynamic range, so attenuator attachments are provided that attach to the tip of the probe.   
The triode has limited dynamic range, so attenuator attachments are provided that attach to the tip of the probe.   
These attenuators also reduce the loading of the probe on the probed circuit.   
These attenuators also reduce the loading of the probe on the probed circuit.   
The probe is rated to 850MHz.  Because the probe contains a small triode, it gets slightly warm during operation.


What, exactly, does the clipping line in the probe body do? 
{{BeginSpecs}}
It appears to be 21mm of RG174 connected to the triode's cathode at one end, and open at the other end.
{{Spec | Bandwidth | ≥850 MHz }}
{{Spec | Rise time | 0.4 ns max. }}
{{Spec | Attenuation |10× to 1000× in 1-2-5 steps with supplied attenuator heads, 3× without attenuator }}
{{Spec | Dynamic range | ±0.15 V × attenuation }}
{{Spec | Maximum input voltage | ±0.225 V × attenuation, de-rated for CW operation for 500× and 1000× attenuator heads }}
{{Spec | Input resistance | 10 MΩ with any attenuator head, 3 MΩ without attenuator head }}
{{Spec | Input capacitance | 3.6 pF (10× head) to 1.3 pF (1000× head), 7 pF without attenuator head}}
{{Spec | Output impedance | not specified, calibrated for 50 Ω load }}
{{Spec | DC offset | ≈0.5 V (not adjustable)}}
{{EndSpecs}}
 
==Internals==
The body of the probe contains a clipping line composed of what appears to be 21 mm of RG-174 coax connected to the triode's cathode at one end and open at the other end.  
The circuit description in the manual describes it vaguely, saying only that, "The clipping line reduces signal aberration to a minimum."
The circuit description in the manual describes it vaguely, saying only that, "The clipping line reduces signal aberration to a minimum."
Page 40 of the [[Media:062-1146-00.pdf|Tektronix Probe Circuits concept book]] explains in more depth,
<blockquote>
The section of 50 Ω coax tied to V1 cathode damps ringing in the high frequency response.
The coax is terminated in an open circuit to reflect a short circuit 1/4 wavelength from the termination.
Since voltage does not exist at a short circuit, the ringing is damped.
</blockquote>
The "V1" in the preceding excerpt refers to V103 in the P6032.


The P6032 is intended for use with samplers such as the [[4S1]], [[3S76]], and [[1S1]].   
==Pictures==
 
<gallery>
* [http://w140.com/kurt/p6032.pdf Tektronix P6032 Manual (PDF)]
P6032_ext.jpg | External view of P6032 without attenuator attachment
* [http://w140.com/kurt/p6032.djvu Tektronix P6032 Manual (DjVu)]
P6032-schematic.png | P6032 Schematic
* [http://w140.com/tek_p6032_preliminary.pdf Tektronix P6032 Preliminary Manual (PDF)]
P6032_int_c.jpg | Internal view of P6032 Probe tip connects directly to triode grid, which is a bare wire coming out of the top of the tube.  Clipping line runs along the body of the probe to the left of the tube socket. 
P6032x10.jpg | ×20 attenuator tip
P6032_pwr.jpg | Internal view of power supply connector. Signal coax passes through undisturbed.
P6032_risetime.jpg | Display on [[545|545A]] with 1S1 and P6032.  Pulse is generated by Tek [[284]] tunnel diode pulser driving into 50 Ω load, GR-BNC adaptor and then to the probe using a probe to BNC adaptor.  The 10x attenuator tip was used on the P6032Timebase is 200 ps/div.  
Tek p6032 kit 1.jpg
Tek p6032 kit 2.jpg
Tek p6032 kit 3.jpg
Tek p6032 kit 4.jpg
</gallery>


<gallery>
{{Parts|P6032}}
Image:p6032_ext.jpg|External view of P6032 without attenuator attachment.
Image:p6032_int_c.jpg|Internal view of P6032  Probe tip connects directly to triode grid, which is a bare wire coming out of the top of the tube.  Clipping line runs along the body of the probe to the left of the tube socket. 


Image:p6032_pwr.jpg|Internal view of power supply at end of P6032 cable.  Signal coax passes through undisturbed.
[[Category:Active oscilloscope probes]]
Image:p6032_risetime.jpg|Display on [[545|545A]] with 1S1 and P6032.  Pulse is generated by Tek [[284]] tunnel diode pulser driving into 50 ohm load, GR-BNC adaptor and then to the probe using a probe to BNC adaptor.  The 10x attenuator tip was used on the P6032.  Timebase is 200ps/div.
</gallery>

Latest revision as of 03:56, 27 October 2023

Tektronix P6032
850 MHz cathode-follower probe
P6032

Compatible with 1S1

Produced from 1962 to (?)

Manuals


Manuals – Specifications – Links – Pictures

The Tektronix P6032 is an 850 MHz cathode-follower probe, intended for use with samplers such as the 1S1, 3S1, 3S76, 4S1, and 4S2. It was designed by Murlan Kaufman.

There is an EC1000 subminiature triode in the probe body, which is why it gets slightly warm during operation.

Like all active probes, the P6032 requires power, and for this reason it has two connectors at the scope end of the cable. There is a four-pin power connector and a 50 Ω GR-874 connector for the signal.

The triode has limited dynamic range, so attenuator attachments are provided that attach to the tip of the probe. These attenuators also reduce the loading of the probe on the probed circuit.

Key Specifications

Bandwidth ≥850 MHz
Rise time 0.4 ns max.
Attenuation 10× to 1000× in 1-2-5 steps with supplied attenuator heads, 3× without attenuator
Dynamic range ±0.15 V × attenuation
Maximum input voltage ±0.225 V × attenuation, de-rated for CW operation for 500× and 1000× attenuator heads
Input resistance 10 MΩ with any attenuator head, 3 MΩ without attenuator head
Input capacitance 3.6 pF (10× head) to 1.3 pF (1000× head), 7 pF without attenuator head
Output impedance not specified, calibrated for 50 Ω load
DC offset ≈0.5 V (not adjustable)

Internals

The body of the probe contains a clipping line composed of what appears to be 21 mm of RG-174 coax connected to the triode's cathode at one end and open at the other end. The circuit description in the manual describes it vaguely, saying only that, "The clipping line reduces signal aberration to a minimum." Page 40 of the Tektronix Probe Circuits concept book explains in more depth,

The section of 50 Ω coax tied to V1 cathode damps ringing in the high frequency response. The coax is terminated in an open circuit to reflect a short circuit 1/4 wavelength from the termination. Since voltage does not exist at a short circuit, the ringing is damped.

The "V1" in the preceding excerpt refers to V103 in the P6032.

Pictures


Some Parts Used in the P6032

Part Part Number(s) Class Description Used in
EC1000 Vacuum Tube (Triode) subminiature triode P6025 P6032