| Image | Part Number | Description / PDF | Quantity | Rfq |
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Sharp Microelectronics |
RECEIVER FIBER OPTIC 15.5MBPS |
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Sharp Microelectronics |
RECEIVER FIBER OPTIC 15.5MBPS |
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Sharp Microelectronics |
RECEIVER FIBER OPTIC 13.2MBPS |
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Sharp Microelectronics |
RECEIVER FIBER OPTIC 15.5MBPS |
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Sharp Microelectronics |
RECEIVER FIBER OPTIC 13.2MBPS |
0 |
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Sharp Microelectronics |
RECEIVER FIBER OPTIC 15.5MBPS |
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Sharp Microelectronics |
RECEIVER FIBER OPTIC 15.5MBPS |
0 |
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Sharp Microelectronics |
RECEIVER FIBER OPTIC 15.5MBPS |
0 |
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Sharp Microelectronics |
RECEIVER FIBER OPTIC 13.2MBPS |
0 |
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Sharp Microelectronics |
RECEIVER FIBER OPTIC 13.2MBPS |
0 |
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Sharp Microelectronics |
RCVR DGTL AUDIO MINI JACK 8MBPS |
0 |
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Sharp Microelectronics |
RECEIVER FIBER OPTIC 13.2MBPS |
0 |
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Sharp Microelectronics |
RECEIVER FIBER OPTIC 13.2MBPS |
0 |
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Sharp Microelectronics |
RECEIVER FIBER OPTIC 15.5MBPS |
0 |
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Sharp Microelectronics |
RCVR DGTL AUDIO MINI JACK 8MBPS |
0 |
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Sharp Microelectronics |
RECEIVER FIBER OPTIC 13.2MBPS |
0 |
|
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Sharp Microelectronics |
RECEIVER FIBER OPTIC 8MBPS |
0 |
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Sharp Microelectronics |
RECEIVER FIBER OPTIC 13.2MBPS |
0 |
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Sharp Microelectronics |
RECEIVER FIBER OPTIC 13.2MBPS |
0 |
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Fiber optic receivers are optoelectronic devices that convert optical signals transmitted through optical fibers into electrical signals. As critical components in fiber optic communication systems, they perform photon-to-electron conversion through semiconductor materials like silicon (Si), indium gallium arsenide (InGaAs), or germanium (Ge). Modern high-speed communication networks, sensing systems, and data centers rely on these devices for reliable signal detection with bandwidth capabilities extending from hundreds of MHz to 100+ Gbps.
| Type | Functional Features | Application Examples |
|---|---|---|
| PIN Photodiode | High linearity, low capacitance, fast response (ns range) | Telecom networks, optical power meters |
| APD (Avalanche Photodiode) | Internal gain mechanism, improved SNR | Long-haul DWDM systems, LIDAR |
| Phototransistor | High sensitivity, low cost | Short-range links, industrial sensors |
| Integrated Receiver | Combined detector and transimpedance amplifier | 400G/800G optical modules |
Typical fiber optic receiver architecture includes:
| Parameter | Description | Importance |
|---|---|---|
| Responsivity | 0.5-1.5 A/W | Determines conversion efficiency |
| Bandwidth | 100MHz-100GHz | Limits data transmission rate |
| Dark Current | <10nA | Impacts signal-to-noise ratio |
| Operating Wavelength | 850nm/1310nm/1550nm | Matches fiber transmission windows |
| Dynamic Range | -20 to -60dBm | Defines signal power tolerance |
Primary application domains include:
Case Study: 100G LR4 receiver modules in backbone networks enable 10km transmission with four 25G channels via wavelength division multiplexing.
| Manufacturer | Product Series | Key Features |
|---|---|---|
| Finisar | FTRx-100G | C-band 100G coherent receiver |
| Hamamatsu | G12132-01 | Planar InGaAs APD array |
| Lumentum | OC5xx Series | High-power photodiode modules |
| Thorlabs | DET01CFC | Compact fiber-coupled receiver |
Key considerations for component selection:
Future development shows:
Market growth projections indicate 9.8% CAGR until 2027, driven by 5G and hyperscale data center expansions.