QSFP28 100G SR4 대비 QSFP28 100G LR4: 적절한 100G 트랜스시버 선택하기

목차
QSFP28 100G SR4 vs QSFP28 100G LR4

Deploying 100G Ethernet is essential for modern data centers and high-speed networks, but selecting the right transceiver is critical. The QSFP28 form factor dominates 100G, with SR4 and LR4 being two prevalent types. While both deliver blazing 100Gbps speeds, their underlying technology, application scenarios, and cost structures differ significantly. Understanding the distinctions between the QSFP28 100G SR4 transceiver 그리고 QSFP28 100G LR4 transceiver ensures optimal network performance, cost-efficiency, and future scalability. This guide dives deep into their specs, use cases, and helps you decide which 100G 광 모듈 best fits your infrastructure needs, highlighting reliable solutions like LINK-PP 트랜스시버.

➤ 핵심 기술 이해

  1. QSFP28 100G SR4 Transceiver:

    • VCSEL 사용 VCSEL(수직 공진기 표면 발광 레이저) lasers operating at 850nm wavelength.

    • 광섬유 종류: 설계 대상: 멀티모드 광섬유(MMF), specifically OM3 or OM4.

    • 연결성: Utilizes an MPO-12/MTP® connector. It transmits and receives over 4 parallel lanes in each direction (4x25G).

    • Key Application: Short-reach, high-density connections within a data center or between adjacent racks (Top-of-Rack to Aggregation/Spine switches).

    • LINK-PP Model Example: LINK-PP LQ-M85100-SR4C (Compliant with QSFP28 MSA, 100m over OM4).

  2. QSFP28 100G LR4 Transceiver:

    • VCSEL 사용 DFB(Distributed Feedback) 레이저를 사용합니다. operating at four LWDM wavelengths (around 1295nm, 1300nm, 1305nm, 1310nm).

    • 광섬유 종류: 설계 대상: 단일모드 광섬유(SMF), specifically OS2.

    • 연결성: Utilizes a standard duplex LC connector. It multiplexes the four wavelengths onto a single fiber pair (WDM technology).

    • Key Application: Long-reach connections between data centers (DCI), campus backbones, service provider networks, and Metro access.

    • LINK-PP Model Example: LINK-PP LQ-LW100-LR4C (Compliant with QSFP28 MSA, up to 10km over SMF).

➤ Head-to-Head Comparison: QSFP28 SR4 vs LR4

The following table summarizes the critical differences:

기능

QSFP28 100G SR4 Transceiver

QSFP28 100G LR4 Transceiver

전송 거리

Up to 70m (OM3)

표준 단일모드 광섬유(SMF)에서 최대 10km

Up to 100m (OM4)

(Standard LR4 specification)

광섬유 유형

다중모드 광섬유(MMF, OM3/OM4)

단일모드 광섬유(SMF, OS2)

커넥터

MPO-12/MTP®

듀플렉스 LC

파장

850nm(4레인)

LWDM (4 lanes: ~1295-1310nm)

레이저 유형

레이저입니다.

DFB

변조

outer OMA

outer OMA

일반적인 전력 소비

약 3.5W

~3.5W – 4.5W

상대적 비용

낮음

높음

주요 사용 사례

Data Center Inter-Rack Connectivity, High-Density Short Reach

Data Center Interconnect (DCI), Campus/Metro Networks, Long Reach

주요 장점

Cost-effective for short distances, leverages existing MMF cabling

Long reach over SMF, standard duplex LC compatibility

➤ Key Differences Explained

  1. Reach & Fiber Type: This is the most significant difference. SR4 is strictly for short distances within a data center using MMF. LR4 excels at distances up to 10km over SMF. Choosing the wrong 광섬유 모듈
    for your distance requirement will result in link failure.

  2. Connector & Cabling: SR4 requires MPO/MTP®-terminated MMF trunks (often 8 or 12 fiber). LR4 uses standard LC duplex patch cords on SMF, offering simpler cable management and leveraging ubiquitous LC infrastructure.

  3. Technology & Cost: SR4 uses simpler VCSEL lasers and parallel optics over MMF, making it generally 더 비용 효율적입니다 for short reach. LR4 employs more complex WDM optics and DFB lasers on SMF, increasing its price point but enabling long reach.

  4. Power & Heat: While both are within the QSFP28 power envelope, LR4 modules often consume slightly more power (especially over temperature/distance) than SR4 modules. Consider thermal design in dense chassis.

  5. Application Focus: SR4 is the workhorse for intra-data center 100G links. LR4 is essential for connecting geographically separate locations or long campus runs.

➤ How to Choose Between QSFP28 100G SR4 and QSFP28 100G LR4 Transceiver

QSFP28 100G SR4 vs QSFP28 100G LR4

When to Choose QSFP28 100G SR4

  • You need to connect switches within the same rack or adjacent racks.

  • Your existing cabling plant is OM3 or OM4 multimode fiber.

  • Your link distances are 100 meters or less.

  • Cost optimization for high-density, short-reach deployments is critical.

  • You require compatibility with 100G SR4 optical modules for ToR (Top-of-Rack) aggregation.

When to Choose QSFP28 100G LR4

  • You need to connect switches between different buildings or data centers.

  • Your existing cabling plant is OS2 single-mode fiber.

  • Your link distances are between 100m and 10km.

  • You need the flexibility and future-proofing of SMF infrastructure.

  • You require compatibility with standard LC patch panels and cabling for long-distance 100G connectivity.

➤ Why Choose LINK-PP 100G Transceivers?

100G Optical Transceivers

LINK-PP 고성능, MSA 호환 100G QSFP28 모듈과 같은, including both SR4 and LR4 variants, rigorously tested for interoperability and reliability. Our optics offer:

  • 비용 절감: OEM 모듈에 비해 상당한 비용 절감.

  • 보장된 호환성: Extensive testing ensures seamless operation with major switch brands (Cisco, Juniper, Arista, Dell, HPE, etc.).

  • 품질 및 신뢰성: Rigorous quality control processes ensure low failure rates and long-term performance.

  • 평생 보증 및 기술 지원: Backed by expert technical support. Upgrade your network infrastructure cost-effectively with reliable LINK-PP optics today.

➤ 결론

다음 사이에서 선택하는 것은 QSFP28 100G SR4QSFP28 100G LR4 transceiver boils down to two fundamental factors: required transmission distanceexisting fiber optic cabling type. For cost-effective, high-density connections within 100 meters leveraging multimode fiber, the SR4 optical module is the clear choice. For versatile, long-reach connectivity up to 10 kilometers over single-mode fiber, the LR4 transceiver is indispensable.

Understanding these differences ensures you invest in the right 100G fiber optic transceiver technology, optimizing both performance and budget. Don’t compromise on reliability for your critical 100G links.

Ready to deploy reliable, high-performance 100G connectivity?
Explore LINK-PP’s extensive range of MSA-compliant QSFP28 100G SR4 and LR4 transceivers today.

Get a quote ➞

기술 지원 ➞

➤ FAQ: QSFP28 100G SR4 vs LR4

  • Q: Can I use an SR4 transceiver over single-mode fiber?
    A: No, absolutely not. SR4 is designed 오직 for multimode fiber (OM3/OM4). Attempting to use it over SMF will fail immediately or cause severe errors. Always match the 광학 모듈 유형을 선택하세요. to the fiber type.

  • Q: Can I use an LR4 transceiver over multimode fiber?
    A: 아니요. LR4 requires single-mode fiber (OS2). Using it over MMF will not achieve the required distance or performance.

  • Q: What is the maximum distance for QSFP28 LR4?
    A: The standard specification for QSFP28 100G LR4 is up to 10 kilometers over OS2 single-mode fiber. Ensure your optical budget (link loss) supports the required distance.

  • Q: Are SR4 and LR4 transceivers interoperable?
    A: No, they are not directly interoperable with each other. An SR4 module must connect to another SR4 module over MMF. An LR4 module must connect to another LR4 module over SMF. They use fundamentally different optical technologies and fiber paths.

  • Q: What about ER4 or ZR4 modules?
    A: These are variants for even longer distances than LR4. ER4 typically reaches ~40km, and ZR4 reaches ~80km. They consume significantly more power and cost more than LR4. LR4 (10km) covers the vast majority of campus and metro DCI needs.

➤ 관련 항목

현대 네트워크를 위한 100G LR4 트랜스시버 이해하기

Unlock High-Speed LINK-PP QSFP28 100G SR4 Transceiver – LQ-M85100-SR4C

100G 광 트랜스시버 모듈 폼 팩터에 대한 종합 안내서

고속 연결을 위한 LINK-PP 100G 트랜스리버를 선택해야 하는 이유

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