576: Difference between revisions

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(A history and description of the 576 semiconductor curve tracer with comparisons to its predecessor, the 575.)
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A calibration fixture, the [[067-0599-00]], was produced for the 576.
A calibration fixture, the [[067-0599-00]], was produced for the 576.
Except for the cathode ray tube (CRT), the 576 semiconductor curve tracer is all-solid-state.  It first appeared in the 1969 catalog for $2125.  It came out during the last four production years of the Type 575 which used the then-current 500-series technology of ceramic strips for circuit tie points.  The 576 used updated construction much in the same style as that of the 453 and 454 portable oscilloscopes, using printed circuit boards.  In fact, the 576 and 453 began life at about the same time.  The only reason the  Type 575 remained in production was because the 176 pulsed high-current fixture had not yet been developed for the 576, and the Type 575 coupled with its Type 175 pulsed high-current fixture filled requirement for power semiconductors.  An interesting side note is that the 453 was introduced the same year as the 576; the 453A and 454A were introduced at the same time as the 176 pulsed high-current adaptor for the 576.
The 576 is unequaled in performance and durability.  In physical volume, it is smaller than the Type 575, mostly due to a cabinet that slopes downward toward the back.  Its sloping front panel and sloping “front porch” where the various adaptors are installed make it much a more comfortable instrument to use.  In addition, the 576 sports an internal graticule and a larger display area.  Because of the power it is able to deliver to solid-state power semiconductors under test, it is a surprisingly heavy instrument for its smaller size, and despite its solid-state design, weighs in at 70-1/2 pounds vs. the 66-1/4  pound weight of the Type 575.
The display is large at 10- x 10-cm with an internal, parallax-free graticule.  Along the right side of the CRT is an alphanumeric readout which puts the important front panel settings where they can be photographed along with the displayed semiconductor curve.  This display is a complex unit of fiber optic light-guides driven by incandescent lamps to provide alphabetic, numeric and Greek characters.  Given the front panel settings, the display automatically calculates beta/DIV.  The 576 was designed before the 7000-series, and by a different engineering group, or they might have shared information and technology to provide all of this as on-screen readout like the 7000-series, and for less money than the technology they used.  Surprisingly, this fiber-optic unit has not proved to be the least bit troublesome, considering all of the incandescent lamps required to implement the design.  Wise operators will keep the display illumination at a lower level to prolong lamp life.
The collector measurement range is from 100na/DIV to 2a/DIV.  Base voltage can be swept from zero to 1500 volts in four ranges.  The three higher ranges require the safety cover to be closed.  Because so many used 576s do not come with safety covers, most users defeat the safety interlock mechanically or electrically.  If this is done, the operate should be especially cautious as the 576 is capable of producing lethal voltages and currents, up to 1500 volts at up to 100ma continuous.
Display positioning in both the horizontal and vertical dimensions is via a switch which moves the beam a calibrated number of divisions and a potentiometer for fine control.  The little brother tracer, the 577, introduced at a later date, does not have this feature.
The instrument has uses other than displaying semiconductor curves.  The vertical system can be adjusted for high current sensitivities in the nanoamp region and with the availability of 1500 volts and DC operation vs. collector supply sweeping, can provide measurement of capacitor leakage currents that few other instruments can achieve.  This is handy for checking ceramic high voltage filter capacitors in defective supplies.
The 576 is capable of displaying curves for bipolar transistors, field-effect transistors, silicon-controlled rectifiers, triacs, diacs, diodes and rectifiers, zener diodes, tunnel diodes …. nearly any semiconductor imaginable.  If one constructs simple adaptors, the 576 can be used to check optocouplers and transistor arrays as well.  It is capable of pouring 20 amperes through a device up to a power level of 220 watts.
The demise of the original 575 came in 1971 when the 575's companion 175 pulsed high-current unit was no longer sold, replaced by the 576 with its new 176 pulsed high-current adaptor.  The 575 itself disappeared from the catalog about a year later.
When production ended with its appearance in the 1990 catalog, the sales price of the 576 had escalated to a stunning $18,040, replaced by the 370 and 371 models selling for just a little bit more.  The 576 now sells on the eBay on-line auction site for anywhere from about $300 to over $2000, usually offered without the safety shield or any adaptors and often without the standard test fixture which sellers seem to enjoy offering separately.  Many are sold with only the 176 pulsed high-current adaptor installed.  The small transistor adaptor are selling for nearly their original catalog price.  On average, the 576 is being sold on the used market for about 1/12 its last catalog price …. or at about half the price when it first appeared in 1969.  Overall, the instrument has held its value and popularity very well.
Many vacuum-tube enthusiasts are using the 576 along with a heater supply to test vacuum tubes, which it can do very well.  By designing a switched heater supply and socket pairs into a metal project box, this would essentially replace the “ancient” Type 570 vacuum-tube curve tracer, which was last sold somewhere around 1966.  The homemade accessory would work very well for matching triode pairs.  The long-antiquated 570 is in great demand among vacuum-tube enthusiasts and “audiophools” (hobbyists who trust their ears more than any test equipment measurements), which is very surprising. 
On a different subject, it might be noted here that the introduction of the 576 marked the approximate time that Tektronix began moving from using the word “Type” in front of its model numbers (e.g., Type 545B) to simply using the model number only.


==Specifications==
==Specifications==

Revision as of 21:32, 22 September 2014

{{{manufacturer}}} 
Curve tracer
Tektronix 576 Curve tracer

Produced from 1969 to 1990

Manuals
Manuals – Specifications – Links – Pictures

The Tektronix 576 is a curve tracer. It uses plug-in fixture modules such as the 172 and 176.

A calibration fixture, the 067-0599-00, was produced for the 576.

Except for the cathode ray tube (CRT), the 576 semiconductor curve tracer is all-solid-state. It first appeared in the 1969 catalog for $2125. It came out during the last four production years of the Type 575 which used the then-current 500-series technology of ceramic strips for circuit tie points. The 576 used updated construction much in the same style as that of the 453 and 454 portable oscilloscopes, using printed circuit boards. In fact, the 576 and 453 began life at about the same time. The only reason the Type 575 remained in production was because the 176 pulsed high-current fixture had not yet been developed for the 576, and the Type 575 coupled with its Type 175 pulsed high-current fixture filled requirement for power semiconductors. An interesting side note is that the 453 was introduced the same year as the 576; the 453A and 454A were introduced at the same time as the 176 pulsed high-current adaptor for the 576.

The 576 is unequaled in performance and durability. In physical volume, it is smaller than the Type 575, mostly due to a cabinet that slopes downward toward the back. Its sloping front panel and sloping “front porch” where the various adaptors are installed make it much a more comfortable instrument to use. In addition, the 576 sports an internal graticule and a larger display area. Because of the power it is able to deliver to solid-state power semiconductors under test, it is a surprisingly heavy instrument for its smaller size, and despite its solid-state design, weighs in at 70-1/2 pounds vs. the 66-1/4 pound weight of the Type 575.

The display is large at 10- x 10-cm with an internal, parallax-free graticule. Along the right side of the CRT is an alphanumeric readout which puts the important front panel settings where they can be photographed along with the displayed semiconductor curve. This display is a complex unit of fiber optic light-guides driven by incandescent lamps to provide alphabetic, numeric and Greek characters. Given the front panel settings, the display automatically calculates beta/DIV. The 576 was designed before the 7000-series, and by a different engineering group, or they might have shared information and technology to provide all of this as on-screen readout like the 7000-series, and for less money than the technology they used. Surprisingly, this fiber-optic unit has not proved to be the least bit troublesome, considering all of the incandescent lamps required to implement the design. Wise operators will keep the display illumination at a lower level to prolong lamp life.

The collector measurement range is from 100na/DIV to 2a/DIV. Base voltage can be swept from zero to 1500 volts in four ranges. The three higher ranges require the safety cover to be closed. Because so many used 576s do not come with safety covers, most users defeat the safety interlock mechanically or electrically. If this is done, the operate should be especially cautious as the 576 is capable of producing lethal voltages and currents, up to 1500 volts at up to 100ma continuous.

Display positioning in both the horizontal and vertical dimensions is via a switch which moves the beam a calibrated number of divisions and a potentiometer for fine control. The little brother tracer, the 577, introduced at a later date, does not have this feature.

The instrument has uses other than displaying semiconductor curves. The vertical system can be adjusted for high current sensitivities in the nanoamp region and with the availability of 1500 volts and DC operation vs. collector supply sweeping, can provide measurement of capacitor leakage currents that few other instruments can achieve. This is handy for checking ceramic high voltage filter capacitors in defective supplies.

The 576 is capable of displaying curves for bipolar transistors, field-effect transistors, silicon-controlled rectifiers, triacs, diacs, diodes and rectifiers, zener diodes, tunnel diodes …. nearly any semiconductor imaginable. If one constructs simple adaptors, the 576 can be used to check optocouplers and transistor arrays as well. It is capable of pouring 20 amperes through a device up to a power level of 220 watts.

The demise of the original 575 came in 1971 when the 575's companion 175 pulsed high-current unit was no longer sold, replaced by the 576 with its new 176 pulsed high-current adaptor. The 575 itself disappeared from the catalog about a year later.

When production ended with its appearance in the 1990 catalog, the sales price of the 576 had escalated to a stunning $18,040, replaced by the 370 and 371 models selling for just a little bit more. The 576 now sells on the eBay on-line auction site for anywhere from about $300 to over $2000, usually offered without the safety shield or any adaptors and often without the standard test fixture which sellers seem to enjoy offering separately. Many are sold with only the 176 pulsed high-current adaptor installed. The small transistor adaptor are selling for nearly their original catalog price. On average, the 576 is being sold on the used market for about 1/12 its last catalog price …. or at about half the price when it first appeared in 1969. Overall, the instrument has held its value and popularity very well.

Many vacuum-tube enthusiasts are using the 576 along with a heater supply to test vacuum tubes, which it can do very well. By designing a switched heater supply and socket pairs into a metal project box, this would essentially replace the “ancient” Type 570 vacuum-tube curve tracer, which was last sold somewhere around 1966. The homemade accessory would work very well for matching triode pairs. The long-antiquated 570 is in great demand among vacuum-tube enthusiasts and “audiophools” (hobbyists who trust their ears more than any test equipment measurements), which is very surprising.

On a different subject, it might be noted here that the introduction of the 576 marked the approximate time that Tektronix began moving from using the word “Type” in front of its model numbers (e.g., Type 545B) to simply using the model number only.


Specifications

please add

Pictures