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Supplier: OSI Optoelectronics
Description: OSI Laser Diode, Inc’s (LDI) High Power SMF coupled laser modules are designed to meet the specific performance demands of the optical test equipment marketplace. The high peak optical power SCW Series lasers serve 1310 nm, 1550 nm, and 1625 nm wavelengths, along with a
- CDRH Classification: Class I
- Features: Fiber Pigtailed, Thermoelectric Cooling
- Laser Output: Continuous Wave, Pulsed
- Laser Power: 225 to 350 milliwatts
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Supplier: SemiNex Corporation
Description: SemiNex's high pulsed power single mode 1310nm TO9 products offer superior performance in cost effective and small form-factor packaging options.
- Laser Output: Continuous Wave
- Laser Power: 400 milliwatts
- Laser Type: Laser Diodes
- Operating Current Range: 1200 milliamps
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Supplier: Richardson RFPD
Description: The NX7363JB-BC is a 1 310 nm Multiple Quantum Well (MQW) structure pulsed laser diode DIP module with single mode fiber and internal thermoelectric cooler. It is designed for light sources of optical measurement equipment (OTDR).
- Laser Power: 150 milliwatts
- Laser Type: Laser Diodes
- Wavelength Range: 1310 nm
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Supplier: Richardson RFPD
Description: The NX7663JB-BC is a 1 625 nm Multiple Quantum Well (MQW) structure pulsed laser diode DIP module with single mode fiber and internal thermoelectric cooler. It is designed for light sources of optical measurement equipment (OTDR).
- Laser Power: 120 milliwatts
- Laser Type: Laser Diodes
- Wavelength Range: 1625 nm
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Supplier: Richardson RFPD
Description: Fabry-Perot (FP) laser diode coaxial module with single modefiber. This module is specified to operate under pulsed condition and designedfor light source of Optical Time Domain Reflectometer (OTDR).
- Laser Power: 39.99 milliwatts
- Laser Type: Laser Diodes
- Wavelength Range: 1310 nm
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Supplier: Richardson RFPD
Description: TheNX7537BF-AA is a 1 550 nm Multiple Quantum Well (MQW) structured Fabry-Perot(FP) laser diode coaxial module with single mode fiber. This module isspecified to operate under pulsed condition and designed for light source ofOptical Time Domain Reflectometer (OTDR).
- Laser Type: Laser Diodes
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Supplier: SemiNex Corporation
Description: The 14 pin butterfly package provides improved heat dissipation compared to traditional TO-can packages. This allows for higher power handling capabilities, making it suitable for applications that require high output power. In addition, the butterfly package also offers better protection against
- Laser Output: Continuous Wave
- Laser Power: 160 milliwatts
- Laser Type: Laser Diodes
- Operating Current Range: 1000 milliamps
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Supplier: SemiNex Corporation
Description: The 14 pin butterfly package provides improved heat dissipation compared to traditional TO-can packages. This allows for higher power handling capabilities, making it suitable for applications that require high output power. In addition, the butterfly package also offers better protection against
- Laser Output: Continuous Wave
- Laser Power: 280 milliwatts
- Laser Type: Laser Diodes
- Operating Current Range: 1100 milliamps
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Supplier: SemiNex Corporation
Description: The 14 pin butterfly package provides improved heat dissipation compared to traditional TO-can packages. This allows for higher power handling capabilities, making it suitable for applications that require high output power. In addition, the butterfly package also offers better protection against
- Laser Output: Continuous Wave
- Laser Power: 180 milliwatts
- Laser Type: Laser Diodes
- Operating Current Range: 1000 milliamps
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Supplier: OSI Optoelectronics
Description: OSI Laser Diode, Inc’s (LDI) MCW Combiner Series fiber couples lasers are designed to meet the performance demands of the optical test equipment marketplace. These high peak optical power lasers serve 850 nm through 1650 nm wavelengths and are available in a compact
- CDRH Classification: Class IIIb
- Features: Fiber Pigtailed
- Laser Power: 50 to 250 milliwatts
- Laser Type: Laser Diode Modules
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Supplier: OSI Optoelectronics
Description: OSI Laser Diode, Inc’s (LDI) TCW Tribiner Series fiber coupled lasers are designed to meet the performance demands of the optical test marketplace. These high peak optical power lasers serve 850 nm through 1550 nm wavelengths and are available in a compact triplex
- CDRH Classification: Class IIIb
- Features: Fiber Pigtailed
- Laser Power: 0.5000 to 225 milliwatts
- Laser Type: Laser Diode Modules
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Supplier: OSI Optoelectronics
Description: OSI Laser Diode, Inc.’s High Power SMF coupled laser modules are designed to meet the performance demands of the optical test equipment marketplace. The high peak optical power SCW Series lasers serve 1310nm through 1650nm wavelengths and are available in fully hermetic
- CDRH Classification: Class IIIb
- Features: Fiber Pigtailed, Thermoelectric Cooling
- Laser Output: Pulsed
- Laser Power: 180 milliwatts
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Recent progress in high-resolution optical fiber time-domain methods and its impact on dynamic environment sensing applications
To OTDR Laser Diode .
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Page 5. Semiconductor parts with 752 in root number
1550 nm InGaAsP MQW FP pulsed laser diode for OTDR application (95 mW min).
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Page 7. Semiconductor parts with 732 in root number
1310 nm InGaAsP MQW FP pulsed laser diode for OTDR application (110 mW min).
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Page 3. Semiconductor parts with 529 in root number
1550 nm InGaAsP MQW FP pulsed laser diode for OTDR application (20 mW min).
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Page 3. Semiconductor parts with 736 in root number
1310 nm InGaAsP MQW FP pulsed laser diode for OTDR application (150 mW min).
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NEC Electronics Inc. NX7327 Datasheet.
1310 nm InGaAsP MQW FP pulsed laser diode for OTDR application (110 mW min).
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GaAs ASIC for time domain reflectometer
Laser diodes for OTDR are two orders of magnitude brighter than lasers for communication, and they require proportionately more current, typically an ampere peak.
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Advances in optical time domain reflectometry
Laser diode amplifier OTDR [24] .
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High performance single mode OTDR using coherent detection and fibre amplifiers
Coherent detection OTDRs have already been developed.8 They have not demonstrated any significant advantages over direct detection OTDRs using laser diodes as light sources.
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Towards a coherent optical free-space communication system
Coherent detection OTDRs have already been developed.8 They have not demonstrated any significant advantages over direct detection OTDRs using laser diodes as light sources.