{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853735","patent":{"patent_number":"US-9853735","title":"Optical transmitter and method thereof","assignee":null,"inventors":[],"filing_date":"2016-08-04T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H04B","H04B","H04B","H04B","H04B","H04B"],"num_claims":13,"abstract":"An apparatus includes: a laser driver configured to output a laser diode current in accordance with a transmit data, a bias control code, and a modulation control code, a laser diode configured to receive the laser diode current and output a light signal, a photodiode configured to receive the light signal and output a photodiode current, a reference driver configured to output a reference current in accordance with the transmit data, the transmit enable signal, a reference bias code, and a reference modulation code, a two-fold comparison circuit configured to compare the photodiode current and the reference current and output a first decision and a second decision, and a DSP configured to adjust the bias control code and the modulation control code in accordance with the first decision and a second decision. A method provides reliable light output using the described apparatus."},"analysis":{"summary":"The Optical Transmitter and Method Thereof patent (US 9853735) introduces a novel system for enhancing the reliability and precision of light output in optical transmitters. The core innovation lies in a feedback mechanism that dynamically adjusts the laser diode current based on real-time monitoring of the light signal. This system addresses the problem of signal instability caused by varying operating conditions, such as temperature and voltage fluctuations, which can lead to data errors and reduced performance in traditional optical transmission systems. The key technical approach involves a laser driver, a laser diode, a photodiode, a reference driver, a two-fold comparison circuit, and a digital signal processor (DSP). The DSP analyzes the photodiode current and a reference current, making precise adjustments to the bias and modulation control codes to maintain a stable light signal. This technology offers significant business value by improving data transmission rates, reducing error rates, and minimizing energy consumption. It has applications in telecommunications, data centers, medical imaging, and industrial automation, representing a substantial market opportunity for organizations seeking to optimize their optical communication systems. The adaptability and precision of the system make it a compelling solution for a wide range of industries.","layman_explanation":"The Optical Transmitter and Method Thereof patent addresses a common problem in optical communication: unstable signals. Imagine trying to send a message with a flashlight, but the light keeps flickering. That's essentially what happens in many optical systems due to changes in temperature, voltage, or component wear. This patent provides a solution to keep that 'flashlight' beam steady and reliable.\n\nHow does it work? The invention continuously monitors the light signal being transmitted. If the signal starts to weaken or fluctuate, the system automatically adjusts the power of the laser that's generating the light. It's like having a smart thermostat for your optical signal. The thermostat constantly checks the temperature and adjusts the heating or cooling to keep it consistent. In this case, the system uses a light sensor (photodiode) to check the light signal and a control system (DSP) to adjust the laser's power. The end result is a much more stable and reliable light signal.\n\nWhy is this important? Stable and reliable optical signals are crucial for many industries. For example, in telecommunications, it means faster and more reliable internet connections. In data centers, it means fewer errors and faster data processing. In medical imaging, it means clearer and more accurate images. By improving the stability and reliability of optical signals, this patent can lead to significant improvements in performance and efficiency across a wide range of applications. The Optical Transmitter and Method Thereof can improve ROI and business value. \n\nWhat's next? The Optical Transmitter and Method Thereof can be applied to existing optical communication systems. As data transfer speeds increase, the need for stable and reliable optical signals will become even more critical. This means this patent will become even more valuable and widespread.","technical_analysis":"The Optical Transmitter and Method Thereof patent details a sophisticated system designed to enhance the stability and precision of optical signals. The technical architecture comprises several key components working in concert: a laser driver, laser diode, photodiode, reference driver, two-fold comparison circuit, and a digital signal processor (DSP). The laser driver outputs a laser diode current modulated by transmit data, bias control code, and modulation control code. The laser diode converts this current into a light signal, which is then monitored by the photodiode. The photodiode generates a current proportional to the light intensity, providing feedback to the system. A reference driver generates a reference current based on transmit data, a transmit enable signal, and reference bias and modulation codes. The two-fold comparison circuit compares the photodiode current and reference current, generating decision signals that are fed into the DSP. The DSP is the brains of the operation, adjusting the bias and modulation control codes based on the comparison results. This closed-loop feedback system allows for real-time correction of signal drift and distortions, ensuring a stable and precise light output. Implementation involves careful selection of components with appropriate bandwidth and linearity characteristics. The DSP algorithms must be optimized for speed and accuracy to minimize latency in the feedback loop. Integration with existing optical transmission systems requires careful consideration of impedance matching and signal conditioning. Performance is characterized by parameters such as signal-to-noise ratio (SNR), bit error rate (BER), and power consumption. Code-level implications involve developing efficient DSP routines for signal processing and control. The stability and performance of this system are crucial for high-speed data transmission and reliable communication in various applications.","business_analysis":"The Optical Transmitter and Method Thereof patent addresses a critical need in the optical communication industry: the stabilization and precision of light output. The market opportunity is substantial, driven by the ever-increasing demand for high-speed, reliable data transmission in sectors such as telecommunications, data centers, medical imaging, and industrial automation. The competitive advantage of this technology lies in its dynamic feedback mechanism, which allows for real-time correction of signal drift and distortions. This results in improved data transmission rates, reduced error rates, and lower power consumption compared to traditional systems. The revenue potential is significant, as the technology can be licensed to manufacturers of optical transmitters and integrated into various communication systems. Potential business models include licensing, product sales, and service agreements. Strategic positioning involves targeting markets where signal stability and precision are paramount, such as high-speed data centers and advanced medical imaging equipment. ROI projections indicate a strong return on investment, driven by increased efficiency, reduced operating costs, and improved product performance. The technology has the potential to disrupt the optical communication industry by enabling more reliable and efficient data transmission. This innovation offers a compelling value proposition for businesses seeking to optimize their optical communication systems and gain a competitive edge.","faqs":null,"topics":["optical transmission","laser diode","photodiode","DSP","signal stability","optical","transmitter","method"],"tech_cluster":null},"seo":{"title":"Optical Transmitter and Method Thereof - Patent US-9853735","description":"Discover how the Optical Transmitter and Method Thereof patent enhances optical signal stability and reduces data errors. Full analysis, claims, and technical details.","keywords":["optical transmission","laser diode","photodiode","DSP","signal stability","data transmission","patent","patent US-9853735"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853735","license":"CC-BY-4.0-like","license_terms":"AI-generated analysis on this page (summary, layman_explanation, technical_analysis, business_analysis, faqs) may be reused with attribution and a visible link back to the canonical URL above. Patent abstracts, claims, and bibliographic data are USPTO public domain.","required_link":"https://patentable.app/patents/US-9853735","citation_suggestion":"Patentable. \"Optical transmitter and method thereof\" (US-9853735). https://patentable.app/patents/US-9853735","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853735","json":"https://patentable.app/api/llm-context/US-9853735","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T09:15:37.705Z"}