50006-XX057 vs 50006-XX056
| Part Number |
|
|
| Category | Backplane Connectors - Specialized | Backplane Connectors - Specialized |
| Manufacturer | Amphenol ICC (FCI) | Amphenol ICC (FCI) |
| Description | 3 ROW VERTICAL HEADER SEL LO | 3 ROW VERTICAL HEADER SEL LO |
| Package | - | - |
| Series | HPC? | HPC? |
| Features | Mating Guide | Mating Guide |
| Mounting Type | Through Hole | Through Hole |
| Termination | Press-Fit | Press-Fit |
| Contact Finish | Gold | Gold |
| Color | Black | Black |
| Number of Positions | 150 | 150 |
| Pitch | 0.100" (2.54mm) | 0.100" (2.54mm) |
| Connector Type | Header, Male Pins | Header, Male Pins |
| Contact Finish Thickness | 30µin (0.76µm) | 30µin (0.76µm) |
| Number of Positions Loaded | All | All |
| Number of Rows | 3 | 3 |
| Connector Style | High Density (HDC, HDI, HPC) | High Density (HDC, HDI, HPC) |
| Connector Usage | Daughtercard | Daughtercard |
| Number of Columns | 50 | 50 |
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1. What is the maximum data transmission rate supported by the backplane connector?
Modern backplane connectors typically support high-speed data transmission up to tens of Gbps, depending on the design of the connector and the technology used, especially in high-speed network and server applications.
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2. What types of signals does the backplane connector support?
Backplane connectors typically support multiple signal types, including power signals, high-speed data signals (such as PCIe, SATA, Ethernet, etc.), and control signals. Some dedicated backplane connectors also support fiber optic signals.
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3. How durable is the backplane connector?
Backplane connectors are designed to provide long-term reliable performance in high insertion and extraction frequencies and complex environments. High end models typically have a lifespan of thousands of insertions and removals, and can maintain stable connections in high temperature, vibration, and impact environments.
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4. How do backplane connectors ensure signal integrity?
Backplane connectors ensure signal integrity in high-speed data transmission and reduce the impact of noise and interference through optimized designs such as shielding technology, differential signal transmission, and low crosstalk design.
