25G SFP28 DAC Direct Attach Copper Cable 5M
25G SFP28 DAC Cable 5M
Ordering information
| Part Number | Product Description | Fiber Spec. |
| S-PP25P005-C | 25G SFP28 DAC Cable 5M | 0~70℃ |
Description
Springtek 25g SFP28 passive cable uses shielded high-speed differential cable, whichIt conforms to 25g Ethernet ieee802.3by standard and sff-8402 sfp28 standard, supports 25g transmission rate, and is also downward compatible with low rate applications. Sfp28 passive cable is the preferred solution for 25g rate short distance application, which is widely used in data transmission between data center and cabinet or between adjacent cabinets.
Springtek 25g SFP28 passive cabl Its biggest characteristics are low cost, ultra-low power consumption (less than 0.1W) and high reliability.
Features
- Support for multi-gigabit data rates up to 25Gbps
- Hot-pluggable
- I/O Connector designed for high speed differential signal applications
- Improved Pluggable FormFactor(IPF) compliant for
- enhanced EMI/EMC performance
- Compatible to SFF-8402 and SFF-8432
- Compatible to SFP28 MSA
- Compatible to IEEE 802.3ba
- Power Supply :+3.3V
- Low power consumption: 0.02 W (typ.)
- Temperature Range: 0~ 70 °C
- Comply with RoHS 6.0
Applications
- 25g Ethernet
- High capacity I/O in Storage Area Networks, Network Attached Storage, and Storage Servers
- Switched fabric I/O such as ultra high bandwidth switches and routers
- Data center cabling infrastructure
- High density connections between networking equipment
Recommended Operating Conditions
| Parameter | Symbol | Min | Typ | Max | Unit |
| Storage Ambient Temperature | Ts | -40 | +85 | °C | |
| Operating Case Temperature | Tc | 0 | +70 | °C | |
| Power Supply Voltage | Voltage VCC3 | 3.14 | 3.3 | 3.47 | V |
| Power consumption | 0.1 | W | |||
| Data Rate Per Lane | 1 | 25.78 | Gb/s |
High Speed Characteristics
| Performance | Symbol | Min | Typ | Max | Unit | Symbol |
| Differential Impedance | RIN,P-P | 90 | 110 | Ώ | ||
| Insertion loss | SDD21 | 22.48 | dB | At 12.8906 GHz | ||
| Differential Return Loss | SDD11 | See 1 | dB | At 0.05 to 4.1 GHz | ||
| SDD22 | See 2 | dB | At 4.1 to 19 GHz | |||
|
Common-mode to mmon-mode output return loss |
SCC11 |
2 |
dB | At 0.2 to 19 GHz | ||
| SCC22 | ||||||
| Differential to common-mode return loss | SCD11 | See 3 |
dB |
At 0.01 to 12.89 | ||
| SCD22 | See | At 12.89 to 19 GHz | ||||
| Differential to common Mode Conversion Loss | SCD21 | 10 | dB | At 0.01 to 12.89 | ||
| See 5 | At 12.89 to 15.7 | |||||
| 6.3 | At 15.7 to 19 GHz | |||||
| Channel Operating Margin | COM | 3 | dB | |||
|
Notes: 1. Reflection Coefficient given by equation SDD11(dB) < 16.5 - 2 × SQRT(f ), with f in GHz 2. Reflection Coefficient given by equation SDD11(dB) < 10.66 - 14 × log10(f/5.5), with f in GHz 3. Reflection Coefficient given by equation SCD11(dB) < 22 - (20/25.78)*f, with f in GHz 4. Reflection Coefficient given by equation SCD11(dB) < 15 - (6/25.78)*f, with f in GHz 5. Reflection Coefficient given by equation SCD21(dB) < 27 - (29/22)*f, with f |
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