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{{Oscilloscope Sidebar | | {{Oscilloscope Sidebar |manufacturer=Tektronix |designers= | | ||
series=400-series scopes | | |||
model=434 | | |||
summary=24 MHz analog storage scope | | summary=24 MHz analog storage scope | | ||
image=434 Tek 4.jpg | | image=434 Tek 4.jpg | | ||
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* [http://w140.com/434_below_B500000.pdf Tektronix 434 Manual sn below 500,000 (complete, PDF)] | * [http://w140.com/434_below_B500000.pdf Tektronix 434 Manual sn below 500,000 (complete, PDF)] | ||
* [http://w140.com/tek_434.pdf Tektronix 434 Manual (incomplete, PDF)] | * [http://w140.com/tek_434.pdf Tektronix 434 Manual (incomplete, PDF)] | ||
* [[Media:070-1915-00.pdf|Tektronix 434 Manual sn 500,000and up (complete, PDF, OCR, bad-OCR)]] | |||
* [[Media:070-1131-00.pdf|Tektronix Maunal sn below 500,000 (complete, PDF, OCR)]] | |||
* [[Media:Tek 432 and 434 fcp april 1972.pdf|Tektronix 432 and 434 Factory Calibration Procedure, April 1972 (PDF, needs OCR)]] | |||
}} | }} | ||
The '''Tektronix 434''' is an analog [[CRT storage scope]] with two independent storage areas on the screen. | The '''Tektronix 434''' is an analog [[CRT storage scope]] with two independent storage areas on the screen. | ||
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about 120 Ω. The input amplifier drives a Tek-made differential amplifier chip, part number [[155-0050-01]]. | about 120 Ω. The input amplifier drives a Tek-made differential amplifier chip, part number [[155-0050-01]]. | ||
The original instrument design utilized an all-discrete switching power supply, making this an incredibly light portable scope. | The original instrument design utilized an all-discrete switching power supply, making this an incredibly light portable scope. | ||
Unfortunately, this power supply was extremely difficult to troubleshoot when it went belly-up. | |||
At serial number B500000 and later, the design of the supply was simplified | |||
to use the same basic circuitry as found in the 7704A using a Tek-manufactured controller chip. | |||
==Repair Issues== | ==Repair Issues== | ||
In general, the 434 is a nice-looking, easy-to-use oscilloscope. | In general, the 434 is a nice-looking, easy-to-use oscilloscope. | ||
However, the 434 was probably one of the worst ''mechanical'' scope designs to come out of Beaverton engineering. | |||
This was the model that caused bench technicians to think that the factory should send all new mechanical engineers | |||
out into the field to work at a Service Center for a year to get an idea of good and bad mechanical designs. | |||
First of all, the 434 design departed from the proven 4-40 steel PCB mounting screws. | First of all, the 434 design departed from the proven 4-40 steel PCB mounting screws. | ||
Instead, it uses 3-48 brass screws in a design that requires a screw-holding driver to get the fasteners in place. | |||
Brass screws are non-magnetic and getting them started | |||
in some of the more obscure places on the vertical preamp board is extremely difficult. | |||
Since these scopes are of an age that one can make modifications without incurring the wrath of Tektronix technicians, | |||
it is suggested that these brass screws be replaced with steel 3-48 screws, | |||
preferably ones with captive washers like the original brass screws. | |||
Most dedicated Tektronix fans and ex-technicians do not like changing any circuit design from the original, | |||
but some mechanical changes such as this are for everyone's benefit | |||
and don't affect operation of the oscilloscope in the least. | |||
In fact, if the circuit boards are removed, the original 3-48 threaded holes | |||
in the castings can be drilled out and retapped for 4-40 screws. | |||
If the V/DIV knob skirt lamps go out, the vertical preamp board must be removed to replace them. | If the V/DIV knob skirt lamps go out, the vertical preamp board must be removed to replace them. | ||
This is a process involving the removal of a lot of the aforementioned brass 3-48 screws, | |||
the removal of some connectors, the unsoldering of a lot of wires | |||
and the removal of knobs and shafts all over that area of the front panel. | |||
Remember, it is always better to leave those red VAR V/DIV knobs on their shafts and | |||
instead remove knob and shaft as a unit by loosening it from the coupler on the potentiometer itself. | |||
Since these oscilloscopes are considered obsolete, the suggestion is to replace | |||
ALL of the vertical knob skirt lamps with light emitting diodes, choosing either white or yellow LEDs. | |||
These lamps already have small-value current limiting resistors on the circuit board that are in series, | |||
so replacing these resistors with the appropriate value to limit LED current is an easy process. | |||
Be careful that you select an appropriate power rating for the resistors. | |||
It is suggested that current be limited so that the panel lighting is sufficient for bright room lighting, | |||
but not so bright as to make it difficult to read the numbers on the knob skirts. | |||
The 434 uses only two plug-in attenuators (both ×10) in each channel, and most V/DIV switching involves gain switching of the preamp. | The 434 uses only two plug-in attenuators (both ×10) in each channel, | ||
and most V/DIV switching involves gain switching of the preamp. | |||
The 434 often cannot meet vertical gain specifications and | |||
some very low-value 5% tolerance resistors must be replaced to correct this. | |||
These resistors are not located in an easy-to-access area of the board | |||
and once the defective resistors are identified, | |||
the board will need to be removed to allow replacement of the resistors without board damage. | |||
Another common problem involves the mounting hardware for the back casting. | Another common problem involves the mounting hardware for the back casting. | ||
Nearly every 434 that was received in Tektronix Service Centers had to have these mounting screws tightened. | |||
There is one located under the cover for the line cord and fuse. If that screw comes completely out, | |||
it is held captive inside that small space, and causes a lot of damage to the open mains connections on the fuse holder. | |||
This is a job for a #2 Pozidriv screwdriver and a LOT of muscle torque. | |||
Don't use a Phillips driver for this because it will "cam out" of the screw head with the torque that you must apply, | |||
causing screw head damage. Regardless of how much torque you apply, | |||
you won't strip the extruded aluminum rails or break the large 10-32 screws. | |||
Tighten all of these casting-mounting screws by hand as tight as you possibly can. | |||
Of course, do not use high-torque pneumatic or electric tools for this job. | |||
Especially don't use the electric impact drivers that are so popular now in the construction industry. | |||
The hardware DOES have its mechanical limitations. | |||
==Links== | |||
* Ken Matheson, ''Servicing the 432/434 Oscilloscopes''. In [[Media:Tekscope 1972 V4 N5 Sep 1972.pdf|Tekscope Vol. 4 No. 5, 1972]] | |||
* [[050-0674-00|Handle Replacement Modification Kit]] | |||
==Pictures== | ==Pictures== | ||
<gallery> | <gallery> | ||
Tek 434.jpg | |||
Tek 434 a.jpg | |||
434 Tek 2.jpg | |||
434_Tek_3.jpg | |||
434 Tek 4.jpg | |||
434 Tek 5.jpg | |||
Tek 434 trace.jpg | |||
Tek 434 side connections.jpg|side connections | |||
Tek 434 front up.jpg | |||
</gallery> | </gallery> | ||
{{Custom ICs|434}} | |||
[[Category:400 series scopes]] | [[Category:400 series scopes]] | ||
[[Category:Analog storage scopes]] | |||