WD-11

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The WD-11 vacuum tube, a triode, was introduced by the Westinghouse Electric corporation in 1922 for their Aeriola RF model radio and found use in other contemporary regenerative receivers (used as a detector-amplifier) including the Regenoflex and Radiola series.

Contents

The WD11 and "RCA-11" [1] (and later simply named "11" by RCA [2] and Philips/Miniwatt [3] ) have the following characteristics:

Socket: UV4 (also known as WD-4-Pin)
EIA/RETMA base diagram:4F
Description:Detector Amplifier Triode
Filament:Directly heated 1.1 V 0.25 A
Plate (anode) voltage:90 V135 V maximum
Grid voltage:−4.5 V−10.5 V
Plate current2.5 mA3.0 mA
Plate resistance:15.5 kΩ15 kΩ
Amplification Factor (mu):6.66.6
Transconductance (gm or S):0.425 mA/V0.44 mA/V
Power output: (Po):0.007 W0.04 W [4]
Grid-plate Capacitance (Cga):3.3 pF
  1. RCA Receiving Tube Manual RC-13. 1937. p. 98.
  2. RCA Receiving Tube Manual RC-14. 1940. p. 157.
  3. "Miniwatt" Technical Data (6th ed.). Australia: The "Miniwatt" Electronics Division of Philips Electrical Industries Pty. Limited, N.S.W. 1958. p. 56.
  4. "WD 11" . Retrieved 7 January 2013.

Drawback s

Westinghouse WD-12 WD-12 Receiving Tube, Westinghouse, c. 1923 - National Electronics Museum - DSC00121.JPG
Westinghouse WD-12
RCA UX-199 UX199 Receiving Tube, RCA - General Electric, c. 1922 - National Electronics Museum - DSC00117.JPG
RCA UX-199

The WD-11's design was somewhat ill thought out, when the filament burns out it has a tendency to contact the plate, feeding high voltages back through the heater circuitry and subsequently burning out the filaments on the remaining tubes,. The WD-11 also has a unique 4 pin base layout that was unlike any subsequent UV and UX style tube base. It had 3 "small" pins and one "large" pin. (Later UV based tubes relied on an index pin on the side of the tube base and UX tubes had 2 large and 2 small pins to ensure proper indexing.)

It was replaced just a year later by higher performance tubes which were less likely to encounter the filament shorting problem, Westinghouse Electric's WD-12 and General Electric's UX-199. No radios using the WD-11 tube were designed after 1924, RCA ceased production and issued a service bulletin describing how to retrofit existing sets to use the newer UX-199 triodes.

Collectibility

Because of its rarity it has become one of the most valuable vacuum tubes in the world. New-old-stock units have sold for as much as US$180 and used tubes for over $100, more than the original price of the radios that use them. Collectors rarely, if ever use these tubes for fear of burning them out.[ citation needed ]

Substitution

Sets that use the costly WD-11 and UV-199 tubes can be modified to use the 1A5/GT octal power pentode (which cost around $2.50) by wiring a 5.1 ohm resistor between the pins of the filament and fabricating an octal-to-four pin adaptor. The pin for the 1A5's suppressor is left unconnected and the screen connected to the plate.

The type 12 (also known as RCA-12) is electrically identical to the type 11, but with a more common UX4 base.

Here is a link on how to modify other tubes to use in place of a wd11:

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