200G QSFP-DD to QSFP-DD Active Optical Cable (AOC)
Compliant with theSFF-8436 QSFP-DD MSA standard
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| SPECIFICATIONS | |||
|---|---|---|---|
| Cable End Connector A | SFP+ | Cable End Connector B | SFP+ |
| Jumper Type | Direct-Attach | Data Rate | 10G |
| Aggregate Bit Rate | 10.3125Gbps | Lane Bit Rate | 10Gbps |
| Number of Channels | 1 | Single Channel Rate | 10G |
| Array Transmitter | VSCEL | Array Receiver | PIN |
| Minimum Bend Radius | 30mm | Factory Brand | PHILISUN |
| Center(Operating) Wavelength | 850nm | Bit Error Rate | ≤10-12 |
| Fiber Type | OM3 MMF MAX 300m | Cable Colour | Aqua |
| Cable Material | LSZH/OFNP | Cable Length Selection | 1-300 meter |
| Safety Certification | TUV/UL/FDA | Application Scenarios | 10 Gigabit Ethernet (10GbE) |
| Protocols | SFF-8636/SFF-8431/SFP MSA 10 Gigabit Ethernet 1x InfiniBand QDR, DDR, SDR | DDMI(Commercial) | YES |
| Supply Voltage | 3.3V | Power Dissipation | <0.8W |
| Operating Temperature | 0 to 70℃ (32 to 158℉) | Storage Temperature | -40 to 85℃ (-40to185℉) |
PRODUCT PRESENTATION
The PHILISUN QSFP-DD(200G) Active Optical Cable is a direct-attach fiber assembly utilizing QSFP-DD connectors and the Multi-Mode Fiber (MMF) scheme. The product complies with the SFF-8665 MSA standard and is suitable for 200Gbps connections within racks and across adjacent racks. It uses OM3/OM4 Multimode Fiber. Its compact structure and fully sealed integrated optics reduce costs compared to conventional optical modules and jumpers, while significantly improving reliability and reducing maintenance. This AOC guarantees broad compatibility with major vendor platforms including Cisco, H3C, Huawei, Juniper, and Arista, and more.
AOC SERIES PRODUCTS
PRODUCTION & TESTING EQUIPMENT
PERFORMANCE PARAMETER
| Absolute Maximum Ratings | |||||||||
| Parameter | Symbol | Min. | Max. | Unit | |||||
| Power Supply Voltage | VCC | -0.5 | +3.6 | V | |||||
| Storage Temperature | Tc | -40 | +85 | ℃ | |||||
| Relative Humidity | RH | 0 | 85 | % | |||||
| Recommended Operating Conditions | |||||||||
| Parameter | Symbol | Min. | Typ. | Max. | Unit | ||||
| Supply Voltage | VCC | 3.15 | 3.3 | 3.45 | V | ||||
| Supply Current Per End | Icc | – | – | 1210 | mA | ||||
| Case Operating Temperature | Tca | 0 | – | 70 | ℃ | ||||
| Data Rate Per Lane | DR | – | 25.78125 | – | Gbps | ||||
| Fiber Bend Radius | Rb | 3 | – | – | cm | ||||
| Notes: 1.Supply current is shared between VCCTX and VCCRX. 2.In-rush is defined as current level above steady state current requirements. |
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| Transmitter Specifications | |||||||||
| Parameter | Symbol | Min. | Typ. | Max. | Unit | ||||
| Input Differential Impedance | Rin | 90 | 100 | 110 | Ω | ||||
| Differential Input Voltage Swing, Per Lane | Vin | 300 | – | 1100 | mV | ||||
| Transmit Disable Voltage | VD | 2.0 | – | VCC +0.3 | V | ||||
| Transmit Enable Voltage | Ven | Vee | – | Vee +0.8 | V | ||||
| Receiver Specifications | |||||||||
| Parameter | Symbol | Min. | Typ. | Max. | Unit | ||||
| Differential Output Swing, per lane | Vout | 300 | – | 900 | mV | ||||
| Bit Error Rate | BER | – | – | 5E-5 | – | ||||
| Output Differential Impedance | Rout | 90 | 100 | 110 | Ω | ||||
| Loss of Signal -Asserted | – | 2.0 | – | VCC +0.3 | V | ||||
| Loss of Signal -Negated | – | Vee | – | Vee +0.8 | V | ||||
| Note: 1.BER=5E-5; PRBS 2^31-1@25.78125Gbps. Pre-FEC |
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TRANSCEIVER ELECTRICAL PAD LAYOUT
PIN DEFINITION
| Pin | Symbol | Name/Description | |||||||
| 1 | GND | Ground | |||||||
| 2 | Tx2n | Transmitter Inverted Data Input | |||||||
| 3 | Tx2p | Transmitter Non-Inverted Data Input | |||||||
| 4 | GND | Ground | |||||||
| 5 | Tx4n | Transmitter Inverted Data Input. | |||||||
| 6 | Tx4p | Transmitter Non-Inverted Data Input | |||||||
| 7 | GND | Ground | |||||||
| 8 | ModSelL | Module Select. | |||||||
| 9 | ResetL | Module Reset | |||||||
| 10 | Vcc Rx | +3.3 V Power supply receiver | |||||||
| 11 | SCL | 2-wire serial interface clock | |||||||
| 12 | SDA | 2-wire serial interface data | |||||||
| 13 | GND | Ground | |||||||
| 14 | Rx3p | Receiver Non-Inverted Data Output | |||||||
| 15 | Rx3n | Receiver Inverted Data Output | |||||||
| 16 | GND | Ground | |||||||
| 17 | Rx1p | Receiver Non-Inverted Data Output | |||||||
| 18 | Rx1n | Receiver Inverted Data Output | |||||||
| 19 | GND | Ground | |||||||
| 20 | GND | Ground | |||||||
| 21 | Rx2n | Receiver Inverted Data Output | |||||||
| 22 | Rx2p | Receiver Non-Inverted Data Output | |||||||
| 23 | GND | Ground | |||||||
| 24 | Rx4n | Receiver Inverted Data Output | |||||||
| 25 | Rx4p | Receiver Non-Inverted Data Output | |||||||
| 26 | GND | Ground | |||||||
| 27 | ModPrsL | Module Present | |||||||
| 28 | IntL | Interrupt | |||||||
| 29 | VCC Tx | +3.3 V Power supply transmitter | |||||||
| 30 | VCC1 | +3.3 V Power Supply | |||||||
| 31 | InitMode | Initialization mode; In legacy QSFP applications, the InitMode pad is called LPMODE | |||||||
| 32 | GND | Ground | |||||||
| 33 | Tx3p | Transmitter Non-Inverted Data Input | |||||||
| 34 | Tx3n | Transmitter Inverted Data Input | |||||||
| 35 | GND | Ground | |||||||
| 36 | Tx1p | Transmitter Non-Inverted Data Input | |||||||
| 37 | Tx1n | Transmitter Inverted Data Input | |||||||
| 38 | GND | Ground | |||||||
| 39 | GND | Ground | |||||||
| 40 | Tx6n | Transmitter Inverted Data Input | |||||||
| 41 | Tx6p | Transmitter Non-Inverted Data Input | |||||||
| 42 | GND | Ground | |||||||
| 43 | Tx8n | Transmitter Inverted Data Input | |||||||
| 44 | Tx8p | Transmitter Non-Inverted Data Input | |||||||
| 45 | GND | Ground | |||||||
| 46 | Reserved | For future use | |||||||
| 47 | VS1 | Module Vender Specific 1 | |||||||
| 48 | Vcc Rx1 | +3.3 V Power supply receiver | |||||||
| 49 | VS2 | Module Vender Specific 2 | |||||||
| 50 | VS3 | Module Vender Specific 3 | |||||||
| 51 | GND | Ground | |||||||
| 52 | Rx7p | Receiver Non-Inverted Data Output | |||||||
| 53 | Rx7n | Receiver Inverted Data Output | |||||||
| 54 | GND | Ground | |||||||
| 55 | Rx5p | Receiver Non-Inverted Data Output | |||||||
| 56 | Rx5n | Receiver Inverted Data Output | |||||||
| 57 | GND | Ground | |||||||
| 58 | GND | Ground | |||||||
| 59 | Rx6n | Receiver Inverted Data Output | |||||||
| 60 | Rx6p | Receiver Non-Inverted Data Output | |||||||
| 61 | GND | Ground | |||||||
| 62 | Rx8n | Receiver Inverted Data Output | |||||||
| 63 | Rx8p | Receiver Non-Inverted Data Output | |||||||
| 64 | GND | Ground | |||||||
| 65 | NC | No Connect | |||||||
| 66 | Reserved | For future use | |||||||
| 67 | VCC Tx1 | +3.3 V Power supply transmitter | |||||||
| 68 | VCC2 | +3.3 V Power Supply | |||||||
| 69 | Reserved | For future use | |||||||
| 70 | GND | Ground | |||||||
| 71 | Tx7p | Transmitter Non-Inverted Data Input | |||||||
| 72 | Tx7n | Transmitter Inverted Data Input | |||||||
| 73 | GND | Ground | |||||||
| 74 | Tx5p | Transmitter Non-Inverted Data Input | |||||||
| 75 | Tx5n | Transmitter Inverted Data Input | |||||||
| 76 | GND | Ground | |||||||
PRODUCT CERTIFICATION
COMPATIBLE BRANDS
CONFIGURATION INFORMATION
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