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2. Roland Juno-60 - Wikipedia

   en.wikipedia.org/wiki/Roland_Juno-60

   The Juno synthesizers introduced Roland's digitally controlled oscillators, allowing for greatly improved tuning stability over its competitors. The Juno-6 and Juno-60 were introduced as low-cost alternatives to polyphonic synths such as the Sequential Circuits Prophet-5 and Roland's own Jupiter-8. Its built-in chorus effect was designed to ...

3. Sanan Optoelectronics - Wikipedia

   en.wikipedia.org/wiki/Sanan_Optoelectronics

   Sanan Optoelectronics (Sanan; Chinese: 三安光电; pinyin: Sānān Guāngdiàn) is a publicly listed Chinese company that engages in full-color high-brightness Light-emitting diode (LED) wafer and chip manufacturing. It also manufactures manufactures solar cell and PIN photodetectors.

4. Wafer (electronics) - Wikipedia

   en.wikipedia.org/wiki/Wafer_(electronics)

   Weight per wafer 100 mm2 (10 mm) Die per wafer 1-inch (25 mm) 1960 2-inch (51 mm) 275 μm: 1969 9 3-inch (76 mm) 375 μm 1972 29 4-inch (100 mm) 525 μm 1976 10 grams [18] 56 4.9 inch (125 mm) 625 μm 1981 95 150 mm (5.9 inch, usually referred to as "6 inch") 675 μm 1983 144 200 mm (7.9 inch, usually referred to as "8 inch") 725 μm.

5. Waves (Juno) - Wikipedia

   en.wikipedia.org/wiki/Waves_(Juno)

   The dipole antenna has two whip antennas that extend 2.8 meters (110 inches/ 9.1 feet) and are attached to the main body of the spacecraft. [6] [7] This sensor has been compared to a rabbit-ear TV antenna. [8] The search coil is overall a Mu-metal rod 15 cm (6 in) in length with a fine copper wire wound 10,000 times around it. [6]

6. Immersion lithography - Wikipedia

   en.wikipedia.org/wiki/Immersion_lithography

   However, [clarification needed] the depth of focus, or tolerance in wafer topography flatness, is improved compared to the corresponding "dry" tool at the same resolution. [4] The idea for immersion lithography was patented in 1984 by Takanashi et al. [5] It was also proposed by Taiwanese engineer Burn J. Lin and realized in the 1980s. [6]

7. Roland Alpha Juno - Wikipedia

   en.wikipedia.org/wiki/Roland_Alpha_Juno

   [1] [6] For the home market, Roland released the HS-10 as the equivalent of the Juno 1, and the HS-80 as the home market version of the Juno 2, both featuring a different colour scheme but sharing the same sound engine as their counterparts. [7] The MKS-50 was released in 1987 and is a rack-mount version of the Alpha Juno.

8. Bow and warp of semiconductor wafers and substrates

   en.wikipedia.org/wiki/Bow_and_warp_of...

   They were withdrawn without replacement but are still widely used for characterization of semiconductor wafers, metal and glass substrates for MEMS devices, solar cells, and many other applications. [ 6 ] [ 7 ] [ 8 ]

9. Microwave Radiometer (Juno) - Wikipedia

   en.wikipedia.org/wiki/Microwave_Radiometer_(Juno)

   The sixth and biggest antenna entirely fills another side the Juno body. [10] MWR antennas: [1] [10] There are two patch array antennas, three slot arrays, and one horn antenna. [10] 600 MHz/0.6 GHz frequency/50 cm wavelength (biggest antenna takes up one side of spacecraft body and is a patch array antenna)