multimode fiber<\/a> solutions, PSM4 uses single-mode fiber to enable longer transmission distances, typically up to 2 kilometers, making it ideal for specific high-bandwidth scenarios.<\/p>\n <\/p>\n
![\"100G](\"https:\/\/ascentoptics.com\/blog\/wp-content\/uploads\/2025\/03\/psm4.png\")
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Key Features of QSFP28 PSM4<\/b><\/strong><\/p>\nQSFP28 PSM4 modules are designed with several defining characteristics:<\/p>\n
\n- Data Rate: Supports 100 Gbps through four lanes at 25 Gbps each<\/li>\n
- Reach: Up to 2 km over single-mode fiber (SMF)<\/li>\n
- Connector: Typically uses an MTP\/MPO connector with 8 or 12 fibers.<\/li>\n
- Wavelength: Operates at 1310 nm, optimized for single-mode fiber.<\/li>\n
- Power Consumption: Low power usage, typically under 3.5W. These features ensure reliable performance in high-density environments.<\/li>\n<\/ul>\n
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How QSFP28 PSM4 Works<\/b><\/strong><\/p>\nThe PSM4 module transmits data over four parallel single-mode fiber pairs (eight fibers total\u2014four for transmit, four for receive). Each lane operates independently at 25 Gbps, using a 1310 nm laser to transmit signals. The module employs non-return-to-zero (NRZ) modulation and integrates a gearbox to align data streams, ensuring efficient data transfer with minimal latency.<\/p>\n
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Importance of QSFP28 in 100G Ethernet<\/b><\/strong><\/h2>\nQSFP28 modules, including PSM4, are critical in modern networking for supporting the exponential growth of data traffic in data centers and enterprise networks. The PSM4 variant addresses the need for cost-effective, high-speed connectivity over single-mode fiber, offering a balance between performance and affordability for 100G Ethernet deployments. Its ability to integrate seamlessly into existing infrastructure makes it a cornerstone for scalable network architectures.<\/p>\n
The QSFP28 PSM4 Optical Transceiver Plays a Vital Role in 100G Ethernet, Primarily in the Following Aspects:<\/p>\n
Industrial-Grade Environmental Adaptability<\/strong><\/h3>\nSupports a wide operating temperature range from -40\u00b0C to 85\u00b0C, making it suitable for hyperscale data centers with high-density computing and demanding environments such as the 5G fronthaul market.<\/p>\n
Features semi-sealed packaging and temperature compensation design to ensure stable operation under harsh conditions like high temperature and humidity.<\/p>\n
Cost-Effective Solution for Medium-Distance Transmission<\/strong><\/h3>\nSupports transmission distances up to 10 km, bridging the cost-performance gap between SR4 (short reach) and LR4 (long reach).<\/p>\n
Compared to LR4, PSM4 uses parallel single-mode fiber (PSM) technology with four independent channels. While it requires 8-core fiber, the total cost within 2 km is lower than CWDM4\/LR4, making it ideal for data centers with abundant fiber resources.<\/p>\n
Technical Advantages<\/strong><\/h3>\nCOB (Chip-on-Board) optical engine design improves integration and reliability, with power consumption under 4W.<\/p>\n
Supports error-free transmission, meeting the low-latency and high-stability demands of high-frequency trading data centers.<\/p>\n
Compatibility and Flexible Upgrade Paths<\/strong><\/h3>\nSupports both 100G-to-100G direct connections and 25G-to-100G breakout configurations via MTP\/MPO-LC breakout cables, enabling smooth upgrades within existing network infrastructures.<\/p>\n
Industry Applications<\/strong><\/h3>\nInternal interconnects in large-scale data centers, such as spine-leaf architectures.<\/p>\n
High-bandwidth use cases in 5G fronthaul\/midhaul networks.<\/p>\n
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With its industrial-grade reliability, cost-effective medium-distance transmission, and flexible compatibility, the QSFP28 PSM4 transceiver has become a key solution in 100G Ethernet deployments where harsh environments and moderate transmission distances are critical.<\/p>\n
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Comparison with QSFP28 CWDM4 and Other Modules<\/b><\/strong><\/h2>\nIn the realm of 100G optical modules, QSFP28 PSM4, CWDM4, LR4, and ZR4 are some of the most common types. Each has its advantages in terms of transmission distance, cost structure, and ideal use cases. Below is a summary comparison of these modules.<\/p>\n
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![\"QSFP28](\"https:\/\/ascentoptics.com\/blog\/wp-content\/uploads\/2025\/03\/100G.png\")
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Transmission Distance Comparison<\/strong><\/h3>\n