Neon Lamps: Difference between revisions
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'''Neon lamps''' are used for at least three different things in Tek instruments: | '''Neon lamps''' are used for at least three different things in Tek instruments: | ||
# Indicator lamps, e.g., for power, beam position, uncalibrated status, or a decimal point | # Indicator lamps, e.g., for power, beam position, uncalibrated status, or a decimal point | ||
# Voltage clamp, similar to how a zener diode is used | # Voltage clamp or stabilizer, similar to how a zener diode is used | ||
# In relaxation oscillators, e.g. in 7000-series power supplies | # In relaxation oscillators, e.g. in 7000-series power supplies | ||
[[File:585-neon-1.jpg|thumb|right|Broken lead (left) on neon in [[585]] time base]] | [[File:585-neon-1.jpg|thumb|right|Broken lead (left) on neon in [[585]] time base]] |
Latest revision as of 03:49, 30 November 2023
Neon lamps are used for at least three different things in Tek instruments:
- Indicator lamps, e.g., for power, beam position, uncalibrated status, or a decimal point
- Voltage clamp or stabilizer, similar to how a zener diode is used
- In relaxation oscillators, e.g. in 7000-series power supplies
Neon lamps fail more than most other components. A common failure mode is for the leads to break off, often close to the glass bulb, due to corrosion and vibration. Another failure mode is for the I-V characteristic to drift.
Neon lamps are used as a voltage clamp in the CRT circuit for setting the CRT grid voltage in many Tek instruments. A typical example is seen in the 561A:
If the neon lamps fail, the CRT grid voltage will be affected.
Another common use is for DC bias shifting, e.g. in 500-series timebase circuits, or the horizontal output of the 511. In such circuits, a 56 V Zener diode may be a possible replacement for the neon.
When in doubt, replace the neon lamps. In a pinch, it may be possible to reattach broken leads after careful grinding of the glass.
Bruce Baur said:
I had to replace a neon that had a broken lead in a 511. It would oscillate. I had lots of neons and would put them on a curve tracer to check. All liked to oscillate. I would then take the neon and bang it on the table, trying to make the internal elements non parallel. I broke a few, but I finally got the internal elements non parallel and the low frequency oscillation stopped.
See also
- Neon lamp @ Wikipedia
- GE Glow Lamp Manual, 2nd Ed. 1965
- William G. Miller, Using and Understanding Miniature Neon Lamps (1969)
- Nixie tubes
- Voltage regulator tubes
Types and data
Type | Tek P/N | Voltage | Current | Notes | |
---|---|---|---|---|---|
Ignition | Operating | Nominal | |||
NE-2 | 150-002, 150-0002-00 | 76 (60−90) V | 58 V | 0.3 mA | =~ modern type A1A |
NE-2V | 150-030, 150-0030-00 | 76 (60−90) V | 58 (46-78) V | 0.6 mA | short length, formed tip for end-on viewing; dark compensated; =~ modern type A2B |
NE-23 | 150-027, 150-0027-00 | 74 (60−90) V | 59 V | 0.3 mA | dark compensated |
Please add
Dark compensation
Neon lamps require a higher voltage to ignite if operated in total dark, this is known as Dark effect. This was compensated in some types by a "mild radioactive additive" to help with ionization, typically a small amount of Krypton-85 (beta emitter, 10.8 years half life) added to the gas filling.
After 50 years, radiation from this source will have reduced to ~3% of the intensity at new. Modern NE-2 variants will likely not contain such an additive in the first place.