Product Center
HS-SFP-GE-LH20-SM-1310 Gigabit Dual Fiber Single Mode SFP Optical Module
The optical module is composed of the functional circuit and optical interface of the optoelectronic device, which includes two parts: transmitting and receiving. The transmitting part is: the electrical signal input a certain bit rate is processed by the internal driver chip to drive the semiconductor laser (LD) or light emitting diode (LED) to emit the corresponding rate of the modulated optical signal, and the internal optical power automatic control circuit is provided to keep the output optical signal power stable. The receiving part is: the optical signal of a certain bit rate is input into the module and converted into an electrical signal by the optical detection diode, and the electrical signal of the corresponding bit rate is output after the preamplifier. The function of the optical module is photoelectric conversion, the sending end converts the electrical signal into an optical signal, and the receiving end converts the optical signal into an electrical signal after transmission through the optical fiber.
HS-SFP-GE-SX05-MM-850 Gigabit Dual Fiber Multimode SFP Optical Module
The optical module is composed of the functional circuit and optical interface of the optoelectronic device, which includes two parts: transmitting and receiving. The transmitting part is: the electrical signal input a certain bit rate is processed by the internal driver chip to drive the semiconductor laser (LD) or light emitting diode (LED) to emit the corresponding rate of the modulated optical signal, and the internal optical power automatic control circuit is provided to keep the output optical signal power stable. The receiving part is: the optical signal of a certain bit rate is input into the module and converted into an electrical signal by the optical detection diode, and the electrical signal of the corresponding bit rate is output after the preamplifier. The function of the optical module is photoelectric conversion, the sending end converts the electrical signal into an optical signal, and the receiving end converts the optical signal into an electrical signal after transmission through the optical fiber.
HS-SFP-FE-LH20-BIDI-1310 100Mbps Single Fiber Single Mode SFP Optical Module
The optical module is composed of the functional circuit and optical interface of the optoelectronic device, which includes two parts: transmitting and receiving. The transmitting part is: the electrical signal input a certain bit rate is processed by the internal driver chip to drive the semiconductor laser (LD) or light emitting diode (LED) to emit the corresponding rate of the modulated optical signal, and the internal optical power automatic control circuit is provided to keep the output optical signal power stable. The receiving part is: the optical signal of a certain bit rate is input into the module and converted into an electrical signal by the optical detection diode, and the electrical signal of the corresponding bit rate is output after the preamplifier. The function of the optical module is photoelectric conversion, the sending end converts the electrical signal into an optical signal, and the receiving end converts the optical signal into an electrical signal after transmission through the optical fiber.
HS-SFP-FE-LH20-SM-1310-R 100Mbps Dual Fiber Single Mode SFP Optical Module
The optical module is composed of the functional circuit and optical interface of the optoelectronic device, which includes two parts: transmitting and receiving. The transmitting part is: the electrical signal input a certain bit rate is processed by the internal driver chip to drive the semiconductor laser (LD) or light emitting diode (LED) to emit the corresponding rate of the modulated optical signal, and the internal optical power automatic control circuit is provided to keep the output optical signal power stable. The receiving part is: the optical signal of a certain bit rate is input into the module and converted into an electrical signal by the optical detection diode, and the electrical signal of the corresponding bit rate is output after the preamplifier. The function of the optical module is photoelectric conversion, the sending end converts the electrical signal into an optical signal, and the receiving end converts the optical signal into an electrical signal after transmission through the optical fiber.
HS-SFP+10G-LX10-BIDI-1270-R 10 Gigabit Single Fiber Single Mode SFP Optical Module
The optical module is composed of the functional circuit and optical interface of the optoelectronic device, which includes two parts: transmitting and receiving. The transmitting part is: the electrical signal input a certain bit rate is processed by the internal driver chip to drive the semiconductor laser (LD) or light emitting diode (LED) to emit the corresponding rate of the modulated optical signal, and the internal optical power automatic control circuit is provided to keep the output optical signal power stable. The receiving part is: the optical signal of a certain bit rate is input into the module and converted into an electrical signal by the optical detection diode, and the electrical signal of the corresponding bit rate is output after the preamplifier. The function of the optical module is photoelectric conversion, the sending end converts the electrical signal into an optical signal, and the receiving end converts the optical signal into an electrical signal after transmission through the optical fiber.
HS-SFP+10G-SX03-MM-8.5 Gigabit Dual Fiber Multimode SFP Optical Module
The optical module is composed of the functional circuit and optical interface of the optoelectronic device, which includes two parts: transmitting and receiving. The transmitting part is: the electrical signal input a certain bit rate is processed by the internal driver chip to drive the semiconductor laser (LD) or light emitting diode (LED) to emit the corresponding rate of the modulated optical signal, and the internal optical power automatic control circuit is provided to keep the output optical signal power stable. The receiving part is: the optical signal of a certain bit rate is input into the module and converted into an electrical signal by the optical detection diode, and the electrical signal of the corresponding bit rate is output after the preamplifier. The function of the optical module is photoelectric conversion, the sending end converts the electrical signal into an optical signal, and the receiving end converts the optical signal into an electrical signal after transmission through the optical fiber.
HiOSO Technology Co., Ltd
4/F, Building 10, Nangang Second Industrial Zone, 1026 Songbai Road, Xili Street, Nanshan District, Shenzhen
0755-83151488
Copyright©2023 HiOSO Technology Co., Ltd. Technical Support:China Enterprise Power Shenzhen SEO
SAF Coolest v1.2 设置面板 NDFSX-ZWAF-BEXAE-SSE
无数据提示
Sorry, the current column has no content for the time being.!
You can view other columns or returnHome Page