0759109123 vs 0759103123
| Part Number |
|
|
| Category | Backplane Connectors - Specialized | Backplane Connectors - Specialized |
| Manufacturer | Molex | Molex |
| Description | CONN HEADER 220POS 11ROW R/A | CONN HEADER 220POS 11ROW R/A |
| Package | - | - |
| Series | GbX I-Trac? 75910 | GbX I-Trac? 75910 |
| Mounting Type | Board Edge, Through Hole, Right Angle | Board Edge, Through Hole, Right Angle |
| Termination | Press-Fit | Press-Fit |
| Contact Finish | Gold | Gold |
| Color | Black | Black |
| Number of Positions | 220 | 220 |
| 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 | 11 | 11 |
| Connector Style | I-Trac, Guide Right | I-Trac, Guide Left |
| Number of Columns | 10 | 10 |
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1. What is the difference between Specialized Backplane Connectors and Conventional Backplane Connectors?
Specialized backplane connectors are typically optimized according to specific application requirements, and may have special structures, signal processing capabilities, higher durability, or higher frequency processing capabilities, making them suitable for specific industries or devices.
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2. How to choose the appropriate backplane connector?
When selecting backplane connectors, factors such as electrical performance (such as signal integrity, data transmission rate), physical size, number of insertions and removals, durability, application environment (temperature, humidity), and compatibility should be considered.
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3. 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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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.
