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Product Details:
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| Power Adjust Range (Option): | 25 DB | Wavelength Repeatability: | ± 2 Pm, Typ. ±1 Pm |
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| Power Flatness Versus Wavelength: | 0.3dB Typ. 0.5dB Max. | Storage Temperature: | −40°C To +80°C |
| Relative Intensity Noise: | < -135dB | Wavelength Stability: | ≤± 2 Pm (24 Hrs At Constant Temperature) |
| Highlight: | Desktop Tunable Laser Source,1568nm Tunable Laser Source |
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Desktop Tunable Laser Source High stability 1525~1568nm
The U8112 Desktop Tunable Lasers offer superior performance for the testing of DWDM components, AWG & PLC components, optical amplifiers EDFA, DWDM system and other general purpose fiber optic test and measurement applications. It has a wavelength high accuracy, high power output, small dimensions, fast startup, and is an affordable tunable laser source system. The system comes with O band,C band, L band, or C + L band options.
Specification
| Model # | U8112 | |||
| Band Option | O | C | L | CL |
| Wavelength Tuning range (nm) | 1260~1360 | 1525~1568 | 1568~1610 | 1525~1610 |
| Output Power | ≥ 7dBm | ≥ 13dBm | ≥ 10dBm | ≥ 7dBm |
| Power Adjust Range (Option) | 25 dB | |||
| Wavelength resolution | 1.0 pm | |||
| Absolute wavelength accuracy | ± 10 pm, typ. < 5 pm | |||
| Relative wavelength accuracy | ±5 pm, typ. ± 2 pm | |||
| Wavelength repeatability | ± 2 pm, typ. ±1 pm | |||
| Wavelength stability | ≤± 2 pm (24 hrs at constant temperature) | |||
| Tuning speed | ≤ 2 ms per step | |||
| Power stability | ≤ ± 0.01dB, (15min). | |||
| Power repeatability | ± 0.05dB | |||
| Power linearity | ± 0.3dB | |||
| Power flatness versus wavelength | 0.3dB typ. 0.5dB max. | |||
| Side-mode Suppression ratio | ≥ 35dB | ≥ 45dB | ||
| Relative intensity noise | < -135dB | |||
| Power | AC 100 - 240 V ± 10%, 48 - 66 Hz, 100 VA max. | |||
| Storage temperature | −40°C to +80°C | |||
| Operating temperature | 0°C to +45°C | |||
| Dimensions | 245 mm W, 105 mm H, 320 mm D | |||
| Weight | 2.0 kg | |||
Other users will ask the following questions:
1.Why does light have a speed limit?
Nothing can travel faster than 300,000 kilometers per second (186,000 miles per second). Only massless particles, including photons, which make up light, can travel at that speed. It's impossible to accelerate any material object up to the speed of light because it would take an infinite amount of energy to do so.
2.What are the 3 common light frequencies used in fiber optics?
The three main wavelengths used for fiber optic transmission are 850, 1300, and 1550 nanometers. These wavelengths are used in fiber optics because they have the lowest attenuation of the fiber.
Contact Person: Jack Zhou
Tel: 13602867834
Fax: 86-020-82575318
