Discovery Semiconductors Inc.
Ewing, NJ 08628
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Extended InGaAs 2 Micron Photodiodes with High Current Handling Find Multiple Applications for Characterizing Ultra-Fast Mode-Locked Fiber Lasers
October 23rd 2017 – Ewing, NJ – Discovery Semiconductors high speed, extended InGaAs 2 micron photodiodes are increasingly being used for characterizing ultra-fast, mode-locked fiber laser at multiple wavelengths ranging from 1550 nm to 2100 nm. According to Dr. Grzegorz Sobon, at Wroclaw University of Science and Technology in Wroclaw, Poland, “We are using the DSC2-50S photodetectors for...
Read More »Extended InGaAs 2 Micron Photodiodes with High Current Handling Find Multiple Applications for Characterizing Ultra-Fast Mode-Locked Fiber Lasers
October 23rd 2017 – Ewing, NJ – Discovery Semiconductors high speed, extended InGaAs 2 micron photodiodes are increasingly being used for characterizing ultra-fast, mode-locked fiber laser at multiple wavelengths ranging from 1550 nm to 2100 nm. According to Dr. Grzegorz Sobon, at Wroclaw University of Science and Technology in Wroclaw, Poland, “We are using the DSC2-50S photodetectors for...
Read More »25G Clock and Data Recovery Lab Buddy offers LOS and LOSL indicators.
Used in 25G SFP and 100G QSFP transmission experiments, 25G Clock and Data Recovery Lab Buddy is compatible with BER test equipment and provides 3R (receive, reshape and retime) solution. Featuring adjustable input equalization, clock and data output amplitude and vertical and horizontal input data decision thresholds, unit delivers output which is configurable to PRBS-9 data signal. Product can...
Read More »25G Clock and Data Recovery Lab Buddy offers LOS and LOSL indicators.
Used in 25G SFP and 100G QSFP transmission experiments, 25G Clock and Data Recovery Lab Buddy is compatible with BER test equipment and provides 3R (receive, reshape and retime) solution. Featuring adjustable input equalization, clock and data output amplitude and vertical and horizontal input data decision thresholds, unit delivers output which is configurable to PRBS-9 data signal. Product can...
Read More »DSC-R418 Optical Receiver offers -3dBm of maximum optical overload.
With user-adjustable gain, DSC-R418 designed for 25 to 28 Gbaud / 50 to 56 Gbps Pulse Amplitude Modulation (PAM-4). Including 25 to 28 Gbps NRZ-ASK (PAM-2) modulation formats for 1310 nm and 1550 nm single-mode systems, unit offers differential conversion gain of up to 3000 V/W. Providing linear response of less than -6 dBm optical input,unit comes with maximum differential peak-to-peak output...
Read More »DSC-R418 Optical Receiver offers -3dBm of maximum optical overload.
With user-adjustable gain, DSC-R418 designed for 25 to 28 Gbaud / 50 to 56 Gbps Pulse Amplitude Modulation (PAM-4). Including 25 to 28 Gbps NRZ-ASK (PAM-2) modulation formats for 1310 nm and 1550 nm single-mode systems, unit offers differential conversion gain of up to 3000 V/W. Providing linear response of less than -6 dBm optical input,unit comes with maximum differential peak-to-peak output...
Read More »Linear 2.2 Micron Wavelength Photodiodes are rated up to 5 GHz.
Targeting applications at 1.2–2.2 micron wavelengths, 50 mA and higher current handling, extended InGaAs photodiodes can help realize full potential of high-power fiber laser and frequency comb technology at 1,550- as well as 2,050 nm. Available formats include K or SMA coax fiber optic module, SMT fiber optic module, and benchtop O/E instrument Lab Buddy, and multimode fiber options are...
Read More »Linear 2.2 Micron Wavelength Photodiodes are rated up to 5 GHz.
Targeting applications at 1.2–2.2 micron wavelengths, 50 mA and higher current handling, extended InGaAs photodiodes can help realize full potential of high-power fiber laser and frequency comb technology at 1,550Ã- as well as 2,050 nm. Available formats include K or SMA coax fiber optic module,ÃÂ SMT fiber optic module, andÃÂ benchtop O/E instrument Lab Buddy, and multimode fiber...
Read More »Discovery Semiconductors HLPD® Technology Enables Lowest Phase Noise Optoelectronic Clocks
Ewing, NJ - Discovery's Highly Linear Photodiode (HLPD-®) technology leads the industry with record phase linearity of less than 5 rad/W. Further reduction in nonlinear distortions can be achieved through optimization of the photodiode's bias, as allowed by the HLPD® Lab Buddy instrument. Such linearity can be leveraged to minimize the phase noise and timing jitter in optoelectronic systems...
Read More »Discovery Semiconductors HLPD-® Technology Enables Lowest Phase Noise Optoelectronic Clocks
Ewing, NJ - Discovery's Highly Linear Photodiode (HLPDÃ-®) technology leads the industry with record phase linearity of less than 5 rad/W. Further reduction in nonlinear distortions can be achieved through optimization of the photodiode's bias, as allowed by the HLPDî Lab Buddy instrument. Such linearity can be leveraged to minimize the phase noise and timing jitter in optoelectronic...
Read More »Extended InGaAs 2 Micron Photodiodes with High Current Handling Find Multiple Applications for Characterizing Ultra-Fast Mode-Locked Fiber Lasers
October 23rd 2017 – Ewing, NJ – Discovery Semiconductors high speed, extended InGaAs 2 micron photodiodes are increasingly being used for characterizing ultra-fast, mode-locked fiber laser at multiple wavelengths ranging from 1550 nm to 2100 nm. According to Dr. Grzegorz Sobon, at Wroclaw University of Science and Technology in Wroclaw, Poland, “We are using the DSC2-50S photodetectors for...
Read More »Extended InGaAs 2 Micron Photodiodes with High Current Handling Find Multiple Applications for Characterizing Ultra-Fast Mode-Locked Fiber Lasers
October 23rd 2017 – Ewing, NJ – Discovery Semiconductors high speed, extended InGaAs 2 micron photodiodes are increasingly being used for characterizing ultra-fast, mode-locked fiber laser at multiple wavelengths ranging from 1550 nm to 2100 nm. According to Dr. Grzegorz Sobon, at Wroclaw University of Science and Technology in Wroclaw, Poland, “We are using the DSC2-50S photodetectors for...
Read More »25G Clock and Data Recovery Lab Buddy offers LOS and LOSL indicators.
Used in 25G SFP and 100G QSFP transmission experiments, 25G Clock and Data Recovery Lab Buddy is compatible with BER test equipment and provides 3R (receive, reshape and retime) solution. Featuring adjustable input equalization, clock and data output amplitude and vertical and horizontal input data decision thresholds, unit delivers output which is configurable to PRBS-9 data signal. Product can...
Read More »25G Clock and Data Recovery Lab Buddy offers LOS and LOSL indicators.
Used in 25G SFP and 100G QSFP transmission experiments, 25G Clock and Data Recovery Lab Buddy is compatible with BER test equipment and provides 3R (receive, reshape and retime) solution. Featuring adjustable input equalization, clock and data output amplitude and vertical and horizontal input data decision thresholds, unit delivers output which is configurable to PRBS-9 data signal. Product can...
Read More »DSC-R418 Optical Receiver offers -3dBm of maximum optical overload.
With user-adjustable gain, DSC-R418 designed for 25 to 28 Gbaud / 50 to 56 Gbps Pulse Amplitude Modulation (PAM-4). Including 25 to 28 Gbps NRZ-ASK (PAM-2) modulation formats for 1310 nm and 1550 nm single-mode systems, unit offers differential conversion gain of up to 3000 V/W. Providing linear response of less than -6 dBm optical input,unit comes with maximum differential peak-to-peak output...
Read More »DSC-R418 Optical Receiver offers -3dBm of maximum optical overload.
With user-adjustable gain, DSC-R418 designed for 25 to 28 Gbaud / 50 to 56 Gbps Pulse Amplitude Modulation (PAM-4). Including 25 to 28 Gbps NRZ-ASK (PAM-2) modulation formats for 1310 nm and 1550 nm single-mode systems, unit offers differential conversion gain of up to 3000 V/W. Providing linear response of less than -6 dBm optical input,unit comes with maximum differential peak-to-peak output...
Read More »Linear 2.2 Micron Wavelength Photodiodes are rated up to 5 GHz.
Targeting applications at 1.2–2.2 micron wavelengths, 50 mA and higher current handling, extended InGaAs photodiodes can help realize full potential of high-power fiber laser and frequency comb technology at 1,550- as well as 2,050 nm. Available formats include K or SMA coax fiber optic module, SMT fiber optic module, and benchtop O/E instrument Lab Buddy, and multimode fiber options are...
Read More »Linear 2.2 Micron Wavelength Photodiodes are rated up to 5 GHz.
Targeting applications at 1.2–2.2 micron wavelengths, 50 mA and higher current handling, extended InGaAs photodiodes can help realize full potential of high-power fiber laser and frequency comb technology at 1,550Ã- as well as 2,050 nm. Available formats include K or SMA coax fiber optic module,ÃÂ SMT fiber optic module, andÃÂ benchtop O/E instrument Lab Buddy, and multimode fiber...
Read More »Discovery Semiconductors HLPD® Technology Enables Lowest Phase Noise Optoelectronic Clocks
Ewing, NJ - Discovery's Highly Linear Photodiode (HLPD-®) technology leads the industry with record phase linearity of less than 5 rad/W. Further reduction in nonlinear distortions can be achieved through optimization of the photodiode's bias, as allowed by the HLPD® Lab Buddy instrument. Such linearity can be leveraged to minimize the phase noise and timing jitter in optoelectronic systems...
Read More »Discovery Semiconductors HLPD-® Technology Enables Lowest Phase Noise Optoelectronic Clocks
Ewing, NJ - Discovery's Highly Linear Photodiode (HLPDÃ-®) technology leads the industry with record phase linearity of less than 5 rad/W. Further reduction in nonlinear distortions can be achieved through optimization of the photodiode's bias, as allowed by the HLPDî Lab Buddy instrument. Such linearity can be leveraged to minimize the phase noise and timing jitter in optoelectronic...
Read More »