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[[Image:Tek1502-front.JPG|thumb|600px|right|Tektronix 1502 Time Domain Reflectometer]]
[[File:Tek1502-front.JPG|thumb|350px|right|Tektronix 1502 Time Domain Reflectometer (CRT version)]]


The '''Tektronix 1502''' is a series of Time Domain Reflectometers commonly used to test coaxial
The '''Tektronix 1502''' is a series of Time Domain Reflectometers commonly used to test coaxial
cables although they have many other uses.  The US military was a major purchaser, most of the
cables although they have many other uses.  The US military was a major purchaser, therefore most of the
first series (the 1502, no letter) will be found surplus with some sort of US military
first series (the 1502, no letter) will be found surplus with some sort of US military
property ID tag and an NSN sticker.
property ID tag and an NSN sticker.


The first version used a CRT and is almost completely analog along with some discrete digital
==Internals and version differences==
The first version used a CRT and is an almost completely analog design except for some discrete digital
logic used to pre-fire and fire the [[tunnel diodes|tunnel diode]] pulser.  The later models (1502B/C)  
logic used to pre-fire and fire the [[tunnel diodes|tunnel diode]] pulser.  The later models (1502B/C)  
used an LCD display and a microprocessor.  The other major difference is the line charging method.
used a liquid-crystal display and a microprocessor.   
 
The other major difference between versions is the line charging method.
The 1502 uses a fast (36 ps) tunnel diode pulser, the later models used a half sine wave to
The 1502 uses a fast (36 ps) tunnel diode pulser, the later models used a half sine wave to
charge the line.  The TD pulser, with its Dirac delta edge gives much better short range
charge the line.  The TD pulser, with its Dirac delta edge, gives much better short range
sensitivity although it is much easier to destroy.
sensitivity, although it is much easier to destroy.


==Repair issues==
There are four key parts in the 1502 that make repair difficult.  The original sampling gate  
There are four key parts in the 1502 that make repair difficult.  The original sampling gate  
(CR1732, Tek [[152-0631-00]]) is no longer available, but Avago RF Schottky barrier diodes in  
(CR1732, Tek [[152-0631-00]]) is no longer available, but Avago RF Schottky barrier diodes in  
the SOT series pair package (HSMS-2822, HSMS-282C) are a close substitute.  These sampling bridges are so small and light that soldering them in place can be a frustrating experience.  The leads are plated steel and if the soldering iron has a magnetic tip (e.g, many Weller models with temperature control), this can cause the gate to be attracted to the iron.  Even with a non-magnetic iron such as a small 15-watt Antex, the surface tension of the solder is enough to cause the gate to "float" away from its intended mounting location when the iron is removed from the molten solder joint.  A special "hold-down" device can be made to hold the bridge in place and was described in a Wizard's Workshop article.  I'll attempt to locate and post that article.
the SOT series pair package (HSMS-2822, HSMS-282C) are a close substitute.  These sampling bridges are so small and light that soldering them in place can be a frustrating experience.  The leads are plated steel and if the soldering iron has a magnetic tip (e.g, many Weller models with temperature control), this can cause the gate to be attracted to the iron.  Even with a non-magnetic iron such as a small 15-watt Antex, the surface tension of the solder is enough to cause the gate to "float" away from its intended mounting location when the iron is removed from the molten solder joint.  A special "hold-down" device can be made to hold the bridge in place and was described in a Wizard's Workshop article.


There is a [[snap-off diode]] (CR1632, Tek [[152-0335-01]]) in the sampling gate pulse shaper  
There is a [[snap-off diode]] (CR1632, Tek [[152-0335-01]]) in the sampling gate pulse shaper  
that is also no longer available but it usually doesn't fail.   
that is also no longer available but it usually doesn't fail.   


The first pulse shaping TD (CR1609, tek [[152-0140-01]], 10 mA, 8 pF) was a fairly common TD  
The first pulse shaping TD (CR1609, Tek [[152-0140-01]], 10 mA, 8 pF) was a fairly common TD  
and there are [[Russian tunnel diodes|Russian substitutes available]].  The primary fast pulse TD (CR1703, Tek [[152-0489-00]],  
and there are [[Russian tunnel diodes|Russian substitutes available]].  The primary fast pulse TD (CR1703, Tek [[152-0489-00]],  
21 mA, 1.5 pF) is simply no longer available.  The russian replacement is GI308E, it requires soldering to the original heatsink.
21 mA, 1.5 pF) is simply no longer available.  The closest Russian replacement is GI308E, it requires soldering to the original heatsink.


If you want to design a replacement, I suggest looking at Analog Devices ADCMP580, and Starecki and Misiaszek's paper,
If you want to design a replacement, I suggest looking at Analog Devices ADCMP580, and Starecki and Misiaszek's paper,
''[http://www.ise.pw.edu.pl/~tomi/papers/wilga2006_50ps.pdf Low cost programmable pulse generator with very short rise/fall time]''.
''[http://www.ise.pw.edu.pl/~tomi/papers/wilga2006_50ps.pdf Low cost programmable pulse generator with very short rise/fall time]''.


There appears to have been an optional "static suppressor" available, Tek 011-0132-00, in a BNC M-F
There appears to have been an optional "static suppressor" in a BNC M-F package, Tek [[011-0132-00]], used to protect the sampler and TD.  It's pretty obscure.  The BNC connector on later 1502s contained an internal shorting bar that shorted the center conductor to the shell with no mating connector installed.  In use, it was to short out the connecting cable so that any static on the line would be discharged before opening up the BNC connector to the internals of the TDR.  Often, this shorting bar would break off, rendering the connector unable to discharge a cable to be connected.  Replacing this BNC connector (or any front-panel component, for that matter) is a laborious process involving resealing the front panel for waterproofing.  The original 1502 and 1503 were the first Tektronix instruments to be fully waterproof (with the X-Y Module installed) such that it could actually be operated while submerged to a shallow depth.  The front panel sealing is a very involved process utilizing several different silicone (grease and RTV) products to do the job.  Tektronix produced a separate Instuction Manual specifically for waterproofing details of the 1500-series.
package used to protect the sampler and TD.  It's pretty obscure.  The BNC connector on later 1502s contained an internal shorting bar that shorted the center conductor to the shell with no mating connector installed.  In use, it was to short out the connecting cable so that any static on the line would be discharged before opening up the BNC connector to the internals of the TDR.  Often, this shorting bar would break off rendering the connector unable to discharge a cable to be connected.  Replacing this BNC connector (or any front-panel component, for that matter) is a laborious process involving resealing the front panel for waterproofing.  The original 1502 and 1503 were the first Tektronix instruments to be fully waterproof (with the X-Y Module installed) such that it could actually be operated while submerged to a shallow depth.  The front panel sealing is a very involved process utilizing several different silicone (grease and RTV) products to do the job.  Tektronix produced a separate Instuction Manual specifically for waterproofing details of the 1500-series.


The other common failure is the battery.  The power supply was designed to protect both the instrument
The other common failure is the battery.  The power supply was designed to protect both the instrument
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==Pictures==
==Pictures==
<gallery>
<gallery>
Image:Tek1502-top.JPG|Top boards of the 1502
Tek1502-top.JPG|Top boards of the 1502
Image:Tek1502-bottom.JPG|Underside of 1502 with stripline sampler and pulser exposed
Tek1502-bottom.JPG|Underside of 1502 with stripline sampler and pulser exposed
Image:Tek1502-samplinggate.JPG|Sampling gate near the BNC end of stripline
Tek1502-samplinggate.JPG|Sampling gate near the BNC end of stripline
Image:Tek1502-pulser.JPG|Pulser end of the stripline
Tek1502-pulser.JPG|Pulser end of the stripline
Image:Tek1502-td.JPG|Pulser TD removed from stripline
Tek1502-td.JPG|Pulser TD removed from stripline
Image:Tek1502-tdcurve.JPG|Pulser TD curve traced with a 576
Tek1502-tdcurve.JPG|Pulser TD curve traced with a 576
File:Tek 1502 with printer.jpg|Tek 1502 with printer
Tek 1502 with printer.jpg|Tek 1502 with printer
</gallery>
</gallery>


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[[Category:Time-domain reflectometers]]
[[Category:Time-domain reflectometers]]
[[Category:Introduced in 1976]]
[[Category:Introduced in 1976]]
=

Revision as of 22:29, 28 June 2017

Tektronix 1502 Time Domain Reflectometer (CRT version)

The Tektronix 1502 is a series of Time Domain Reflectometers commonly used to test coaxial cables although they have many other uses. The US military was a major purchaser, therefore most of the first series (the 1502, no letter) will be found surplus with some sort of US military property ID tag and an NSN sticker.

Internals and version differences

The first version used a CRT and is an almost completely analog design except for some discrete digital logic used to pre-fire and fire the tunnel diode pulser. The later models (1502B/C) used a liquid-crystal display and a microprocessor.

The other major difference between versions is the line charging method. The 1502 uses a fast (36 ps) tunnel diode pulser, the later models used a half sine wave to charge the line. The TD pulser, with its Dirac delta edge, gives much better short range sensitivity, although it is much easier to destroy.

Repair issues

There are four key parts in the 1502 that make repair difficult. The original sampling gate (CR1732, Tek 152-0631-00) is no longer available, but Avago RF Schottky barrier diodes in the SOT series pair package (HSMS-2822, HSMS-282C) are a close substitute. These sampling bridges are so small and light that soldering them in place can be a frustrating experience. The leads are plated steel and if the soldering iron has a magnetic tip (e.g, many Weller models with temperature control), this can cause the gate to be attracted to the iron. Even with a non-magnetic iron such as a small 15-watt Antex, the surface tension of the solder is enough to cause the gate to "float" away from its intended mounting location when the iron is removed from the molten solder joint. A special "hold-down" device can be made to hold the bridge in place and was described in a Wizard's Workshop article.

There is a snap-off diode (CR1632, Tek 152-0335-01) in the sampling gate pulse shaper that is also no longer available but it usually doesn't fail.

The first pulse shaping TD (CR1609, Tek 152-0140-01, 10 mA, 8 pF) was a fairly common TD and there are Russian substitutes available. The primary fast pulse TD (CR1703, Tek 152-0489-00, 21 mA, 1.5 pF) is simply no longer available. The closest Russian replacement is GI308E, it requires soldering to the original heatsink.

If you want to design a replacement, I suggest looking at Analog Devices ADCMP580, and Starecki and Misiaszek's paper, Low cost programmable pulse generator with very short rise/fall time.

There appears to have been an optional "static suppressor" in a BNC M-F package, Tek 011-0132-00, used to protect the sampler and TD. It's pretty obscure. The BNC connector on later 1502s contained an internal shorting bar that shorted the center conductor to the shell with no mating connector installed. In use, it was to short out the connecting cable so that any static on the line would be discharged before opening up the BNC connector to the internals of the TDR. Often, this shorting bar would break off, rendering the connector unable to discharge a cable to be connected. Replacing this BNC connector (or any front-panel component, for that matter) is a laborious process involving resealing the front panel for waterproofing. The original 1502 and 1503 were the first Tektronix instruments to be fully waterproof (with the X-Y Module installed) such that it could actually be operated while submerged to a shallow depth. The front panel sealing is a very involved process utilizing several different silicone (grease and RTV) products to do the job. Tektronix produced a separate Instuction Manual specifically for waterproofing details of the 1500-series.

The other common failure is the battery. The power supply was designed to protect both the instrument and the battery from abuse, so any failure will cause the power supply to latch up (via Q6547/Q6549) and the unit will appear dead. The pack is rebuildable with NiCd battery cells. To operate without a battery in place use a 200 to 270 Ω / 10 W power resistor in parallel with a 2200 μF cap (> 25 V); this will fool the power supply protection circuit into thinking that it's charging a valid battery.

Another common failure is a defective DISTANCE dial. Operators expect the numerical readout of this dial to go from zero to 999 and it is not designed to do that. Often, the internal plastic stops get broken from operators forcing the dial past its intended stop, rendering the part useless.

Manuals

Note that the manuals for the 1502B and 1503C are still available from Tektronix.

Pictures

=