Micro Lens Array

Micro Lens Array

Micro lens array is manufactured through hybrid molding method which is originally developed by MPNICS through optimized manufacturing technology.

  • DWDM (MUX, DeMUX, Optical add/drop)
  • Optical Switches, Amplifiers, and Isolators
  • Variable Optical Attenuators
  • Waveguide to Fiber Coupling
  • Lens profiles : Plano-convex, aspherics

WL=Wave Length, EFL=Effective Focal Length, L1=WD, OI=Distance of the Object and Image, M=Magnification, NAO=Numerical Aperture Object, NA=Numerical Aperture, P=lens of pitch distance, NOL=Number of lens

Part number
Type
WL
(λnm)
EFL
(mm)
BD
(mm)
L1
(mm)
L2
(mm)
OI
(mm)
M
(mm)
NAO
NA
P
(mm)
NOL
Size
W×H×CT (mm)
AGCD-0019-00 Collimator 1310 1.276 0.450 0.860 0.176 0.750 4 3.75*0.80*0.74
AGCD-0016-00 Collimator 1310 1.276 0.450 0.860 0.176 0.750 4 3.00*0.80*0.74
AGCD-0014-00 Collimator 1310 1.838 0.800 1.557 0.218 1.100 4 4.50*2.0*0.50
AGFD-0006-00 Coupling 850 1.497 0.150 0.600 1.200 2.485 0.174 0.116 0.250 4 1.22*1.16*T0.45
AGCD-0012-00 Collimator 1310 1.700 0.600 1.300 0.177 0.750 4 3.05*1.44*T0.71
AGCD-0001-00 Collimator 1310 0.748 0.700 0.300     0.467 0.990 4 1.8*4.0*T0.8
AGFD-0005-00 Coupling 1310 0.533 0.300 1.500 2.700 2.485 0.383 0.154 0.750 4 3.5*1.5*T0.9
AGCD-0004-00 Collimator 1310 0.890 0.250 0.500     0.140 0.500 4 4.2*1.9*T0.75

Collimator type

Lens configuration Aspheric glass lens
Material Optical glass (RoHS compliant)
Lens size 0.6 ㎜ over
Antireflection film Dual-side multi-layer coating
Operating temperature -40℃ to 85℃
Storage temperature -40℃ to 100℃
Temperature and humidity resistance +85℃ at 85%RH
Storage temperature -40℃ to 100℃
Tolerance H±10 ㎛, H1±5 ㎛, W±10 ㎛, W1±5 ㎛, CT±10 ㎛

Coupling type

Lens configuration Aspheric glass lens
Material Optical glass (RoHS compliant)
Lens size 0.6 ㎜ over
Antireflection film Dual-side multi-layer coating
Operating temperature -40℃ to 85℃
Storage temperature -40℃ to 100℃
Temperature and humidity resistance +85℃ at 85%RH
Storage temperature -40℃ to 100℃
Tolerance H±10 ㎛, H1±5 ㎛, W±10 ㎛, W1±5 ㎛, CT±10 ㎛