Optical microelectronics cleaning engineering is defined as removing particles of dust in the air, harmful air, bacteria and so on in a certain space range, and to control the indoor temperature, humidity, cleanliness, indoor pressure, air flow speed and air flow distribution, noise vibration and lighting, static electricity in a certain range of requirements, and given to specially designed closed spaces. Optical microelectronics cleaning engineering is defined as removing particles of dust in the air, harmful air, bacteria and so on in a certain space range, and to control the indoor temperature, humidity, cleanliness, indoor pressure, air flow speed and air flow distribution, noise vibration and
Optical microelectronics cleaning engineering is also called dustless room or clean room, now is a critical facility for semiconductor, precision manufacturing, liquid crystal manufacturing, optical manufacturing, circuit board manufacturing and biochemical, pharmaceutical, food manufacturing and other industries. Optical microelectronics cleaning engineering is also called dustless room or clean room, now is a critical facility for semiconductor, precision manufacturing, liquid crystal manufacturing, optical manufacturing, circuit board manufacturing and biochemical, pharmaceutical, food manufacturing and other industries. Saan kɔ̈k cï lɔ̈ɔ̈m yiic, ka sababu bɛ̈n ya looi në teknoloji yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yiic yi
Optical microelectronics cleaning engineering aye:
1, ɣän puɔth
2, ɣööt ye kɔc kony në luɔɔi de kɔc ye kɔc kony në luɔɔi de kɔc ye kɔc kony në luɔɔi de kɔc ye kɔc kony në luɔɔi de kɔc ye kɔc kony në luɔɔi de kɔc ye kɔ
3. Kuen ye kɔc kuɛ̈n (kɔc ye kɔc kuɛ̈n, kɔc ye kɔc kuɛ̈n, kɔc ye kɔc kuɛ̈n, kɔc ye kɔc kuɛ̈n)
4, ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣän ke ɣ
Optical Microelectronics Purification Engineering Purification Principle
Air flow → First effect cleaning → Air conditioning → Medium effect cleaning → Fan feed air → Pipeline → High efficiency cleaning air → Blow into room → Take away dust bacteria
Other particles → return wind shutters → initial effect purification Luɔr ka baara ye looi, ka bɛ̈n looi ka bɛ̈n looi ka bɛ̈n looi ka bɛ̈n looi ka bɛ̈n looi ka bɛ̈n looi.
Parameters of Optical Microelectronics Purification Engineering (Parameters of Optical Microelectronics Purification Engineering)
Lëk ye yɛl: 100,000 grade ≥15 times; 10000 ye ≥20 ye; 1000≥30 ye. Pressure difference: Main workshop to adjacent room ≥5Pa
Kɔnɔŋ ye kɔnɔŋ ye kɔnɔŋ ye kɔnɔŋ ye kɔnɔŋ ye kɔnɔŋ ye kɔnɔŋ ye kɔnɔŋ ye kɔnɔŋ ye kɔnɔŋ ye kɔnɔ Temperature Winter > 16°C; Summer <26°C; A ye cɔl ±2°C.
tɛmɛ 45-65%; GMP powder workshop humidity ee 50% ye. Lɔ̈ɔ̈m ye tɔ̈ɔ̈u në ɣän ke elektronik yiic ee dɔ̈ŋ apɛi ago lɔ̈ɔ̈m ye tɔ̈ɔ̈u ya cɔk tɔ̈ɔ̈u.
Noise ≤65dB(A); Fɛɛr yam ye bɛ̈n tääu 10-30% de fɛɛr yam ye bɛ̈n tääu. Luɔr ye 300 LX.