The TGG Based 850nm Optical Isolator is characterized with low insertion loss, high isolation, high return loss, excellent environmental stability and reliability. It has been widely used in lasers, transmitters and other fiber optics communication equipment to suppress back reflection and back scattering.
The TGG Based 850nm Optical Isolator is characterized with low insertion loss, high isolation, high return loss, excellent environmental stability and reliability. It has been widely used in lasers, transmitters and other fiber optics communication equipment to suppress back reflection and back scattering.
DK Photonics offers a large selection of polarization insensitive or polarization maintaining fiber-in to fiber-out isolators. These devices can handle powers rang from 300mW to 150W or other on request, and have center operating wavelengths ranging from 500nm to 2100nm.
If you do not see a standard isolator that meets your needs, we welcome the opportunity to review your desired specification and quote a custom isolator. Requests for custom fiber pigtails, different wavelengths and handling power of operation or other specific needs will be readily addressed.
Parameters | Unit | Values |
Central Wavelength | nm | 850 |
Operating Wavelength Range | nm | ±10 |
Typ. Peak Isolation | dB | 30 |
Min. Isolation in Band (at 23℃) | dB | 25 |
Typ. Insertion Loss | dB | 1.0 |
Max. Insertion Loss (at 23℃) | dB | 1.5 |
Max. PDL(for SM fiber) | dB | 0.15 |
Min. Return Loss | dB | 45 |
Maximum Power Handling (continuous wave) | W | 0.5,1, 2, 5,10 |
Max. Peak Power for ns Pulse | kW | 1, 5,10 |
Max. Tensile Load | N | 5 |
Fiber Type | – | 780-HP, or other |
Operating Temperature | °C | 0 ~ + 70 |
Storage Temperature | °C | -40 ~ +85 |
Dimensions | mm | 58x28x26 |
*Due to ongoing design improvements, the package size is subject to change. Please contact DK Photonics for confirmation.
P/N: ISO-①-②-③-④-⑤-⑥-⑦
When you inquire, please provide the correct P/N number according to our ordering information, and attach the appropriate description would be better. If need any connector, we do not recommend choosing a 250μm bare fiber pigtail.
① | ② | ③ | ④ | ⑤ | ⑥ | ⑦ |
wavelength | Optical Power | Power Type | Fiber Type | Pigtails Diameter | Fiber Length | Connector Type |
85:850nm
XX: Other |
S:<0.1W
L:<0.5W 1:1W 3:3W 5:5W 10:10W |
P: Pulsed
C: Continuous Wave |
XX: fiber code | 25:250μm bare fiber
90:900μm Loose Fiber XX: Others |
10:1.0m
XX: Other |
00: None
FP: FC/PC FA: FC/APC XX: Others |
Part Number Example: ISO-85-L-C-S78-90-10-FA
Description: TGG Based 850nm Optical Isolator, 0.5W power handling, continuous wave power, 780-HP fiber, with 0.9mm OD loose tube, 1.0m length fiber pigtails, FC/APC connectors at all ports.
Ordering Information for Custom Parts
If you need to customize other specifications, please provide detailed description for your requirement.
Function
An optical isolator is a passive magneto-optic device that only allows light to travel in one direction. Isolators are used to protect a source from back reflections or signals that may occur after the isolator. Back reflections can damage a laser source or cause it to mode hop, amplitude modulate, or frequency shift. In high-power applications, back reflections can cause instabilities and power spikes.
An isolator’s function is based on the Faraday Effect. In 1842, Michael Faraday discovered that the plane of polarized light rotates while transmitting through glass (or other materials) that is exposed to a magnetic field. The direction of rotation is dependent on the direction of the magnetic field and not on the direction of light propagation; thus, the rotation is non-reciprocal. The amount of rotation β equals V x B x d, where V, B, and d are as defined below.
Figure 1.Schematic diagram of Faraday effect
Faraday Rotation
β = V x B x d