Fiber Coupled Photodiodes

Description: ). The detector module offers high reliability satisfying TELCORDIA GR-468-CORE. The LPD 3080 coaxial devices are available with either a 245 um or 900 um jacketed fiber and are available at two back reflection levels. Product Features InGaAs PIN Photodiode Low Dark

• Active Area Diameter or Length: 0.0750 mm
• Dark Current: 0.0500 nA
• Operating Temperature: -40 to 85 C
• PN, PIN, or Avalanche: PIN Photodiode

Description: Photodiode with mini-lens, high-speed response (1 GHz) The S5973-01 is a high-speed Si PIN photodiode designed for visible to near infrared light detection. The mini-lens type photodiode can be efficiently coupled to an optical fiber. This photodiode

• Active Area Diameter or Length: 0.4000 mm
• Active Area Height: 0.4000 mm
• Dark Current: 0.1000 nA
• PN, PIN, or Avalanche: PIN Photodiode

Description: The LAPD 3080 is a 75 um InGaAs, mesa structure APD, housed in a hermetic 3 pin coaxial package. The APD is coupled to either a multimode or single mode fiber pigtail. The APD is of mesa type construction giving the device fast recovery times from optical overloads. The low noise,

• Active Area Diameter or Length: 0.0750 mm
• Dark Current: 5.6 nA
• Operating Temperature: -40 to 85 C
• PN, PIN, or Avalanche: Avalanche Photodiode

Description: The 1544-B DC-Coupled NIR Fiber-Optic Receiver is ideal for applications that require high sensitivity, high speed, and clean responses. It offers clean responses and 32-ps rise times making it well-suited for time-domain characterization of 10-Gbit/s components. Its high gain and well

• Bandwidth: 0.0 to 12000 MHz
• Connector Type: Other
• Photodiode Type: PIN
• Receiver Rise Time: 0.0320 ns

Description: The 1544-B-50 DC-Coupled NIR Fiber-Optic Receiver is ideal for applications that require high sensitivity, high speed, and clean responses. It offers clean responses and 32-ps rise times making it well-suited for time-domain characterization of 10-Gbit/s components. Its high gain and

• Bandwidth: 0.0 to 12000 MHz
• Connector Type: Other
• Photodiode Type: PIN
• Receiver Rise Time: 0.0320 ns

Description: the adapter already installed. It is important to determine whether enough signal can be sent to the spectrometer or a monochromator. A rough estimate on how much light will couple to the optical fiber can be obtained by taking the ratio between the core area or the effective mode area

• Spectral Response Range: 400 to 1100 nm

Description: rough estimate on how much light will couple to the optical fiber can be obtained by taking the ratio between the core area or the effective mode area of the fiber and the surface area of the sphere, which can be very small. We recommend using a spectrometer that accepts at

• Spectral Response Range: 800 to 1650 nm

Description: The AFBR-1310Z is a compact, high performance, cost effective transmitter for multi GHz analog communication over single mode optical fiber. The transmitter incorporates a linear wide bandwidth InGaAsAl/InP Fabry-Perot laser packaged inside a TO-header, coupled to a single mode

• Cable Type: Single Mode
• Connector Type: FC, Other
• Maximum Optical Output Power: 6.99 dBm
• Operating Temperature: -40 to 185 F

Description: The series HCA-S-400M Photoreceivers combine fast photodiodes with the proven and outstanding FEMTO HCA Current Amplifier technology. The HCA-S-400M is available with either a fast Si or InGaAs photodiode covering a spectral range from 320 to 1000 nm and 900 to 1700 nm, respectively.

• Output Type: Voltage Output
• Photosensor Type: PIN Photodiode
• Spectral Response: 320 to 1700 nm
• Supply Voltage: 15 volts

Description: high reliability which satisfies Telcordia specifications. The term “PINFET” (p-intrinsic-n, field-effect transistor) indicates the integration of a PIN photodiode and a discrete, high-performance transimpedance amplifier stage. Light is coupled into the detector stage through a

• Amplifier Type: Transimpedance
• Bandwidth: 3 to 250 MHz
• Cable Type: Single Mode / Multimode
• Connector Type: FC, LC, SC, ST, Other

Description: MACOM’s photoreceiver products offers industry leading performance from proprietary photodiodes coupled with high performance amplifiers and address the entire range of communications applications from 2.5G to 100G and beyond.

• Bandwidth: 1700 to 12500 MHz
• Responsivity: 0.0700 to 0.8000 A/W
• Sensitivity: -35 to -16.5 dB
• Stand Alone: Yes

Description: monolithically grown in the silicon device as well as monitor photodiodes to provide closed-loop control. The L-PIC device also includes a high performance output coupler for operation on one standard single mode optical fiber. This platform reduces manufacturing cost by

• Cable Type: Single Mode
• Data Rate: 28 to 56 Gbps
• Maximum Optical Output Power: -6.5 to 4 dBm

Description: the OPM series particularly useful in systems control feedback loops, such as in fibre alignment systems. The high sensitivity and wide dynamic range allow measurement of fibre coupled lasers and LEDs alike. Several options of photodiode material and optical input, including free beam

• Connector Type: Other
• Form Factor: Bench Top
• Operating Temperature: 0.0 to 60 C
• Optical Power Range: Up to 6.5 dBm

Description: the OPM series particularly useful in systems control feedback loops, such as in fibre alignment systems. The high sensitivity and wide dynamic range allow measurement of fibre coupled lasers and LEDs alike. Several options of photodiode material and optical input, including free beam

• Cable Type: Single-mode / Multimode
• Connector Type: Other
• Form Factor: Bench Top
• Operating Temperature: 0.0 to 60 C

Description: specifications, all Collimators and Focus Guidescan be adjusted to provide the flexibility necessary for certain set ups. Designed to collimate or focus light exitingan optical fiber to a desired beam diameter or spot size from the end of the module, these devices can be usedwith laser

• Aperture: 0.1200 to 0.4000 mm
• Focal Length: 0.0180 m
• Type: Collimator
• Wavelength: 350 to 2000 nm

Description: specifications, all Collimators and Focus Guidescan be adjusted to provide the flexibility necessary for certain set ups. Designed to collimate or focus light exitingan optical fiber to a desired beam diameter or spot size from the end of the module, these devices can be usedwith laser

• Aperture: 0.1200 to 0.4000 mm
• Focal Length: 0.0380 m
• Type: Collimator
• Wavelength: 350 to 2000 nm

Description: specifications, all Collimators and Focus Guidescan be adjusted to provide the flexibility necessary for certain set ups. Designed to collimate or focus light exitingan optical fiber to a desired beam diameter or spot size from the end of the module, these devices can be usedwith laser

• Aperture: 0.1200 to 0.4000 mm
• Focal Length: 0.0380 m
• Type: Collimator
• Wavelength: 350 to 2000 nm

Description: specifications, all Collimators and Focus Guidescan be adjusted to provide the flexibility necessary for certain set ups. Designed to collimate or focus light exitingan optical fiber to a desired beam diameter or spot size from the end of the module, these devices can be usedwith laser

• Aperture: 0.1200 to 0.4000 mm
• Focal Length: 0.0100 m
• Type: Collimator
• Wavelength: 350 to 2000 nm

Description: The Low-noise balanced photoreceivers of the HBPR series offer differential measurement of optical signals in the wavelength range from 320 nm to 1700 nm (SI or InGaAs) with bandwidths of up to 500 MHz. The optical inputs are free space or fiber-coupled. Among other things, the devices enable

• Noise Equivalent Power (NEP): 6.5 W/Hz^½
• Spectral Response: 800 to 1700 nm

Description: platforms. It consists of an optical fiber coupler with a y-beam splitter that directs the scattered light signal from the nanoparticles at 180° back to a photodiode detector. The sensing end of the probe can be immersed in a suspension or positioned to measure one drop of a