2013266-1 vs 10079192-10032LF
| Part Number |
|
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| Category | Memory Connectors - Inline Module Sockets | Memory Connectors - Inline Module Sockets |
| Manufacturer | TE Connectivity AMP Connectors | Amphenol ICC (FCI) |
| Description | CONN SKT DIMM 240POS PCB | CONN SKT RDIMM 240POS PCB |
| Package | - | - |
| Series | - | 10079192 |
| Features | Board Guide, Latches | Board Lock, Latches |
| Mounting Type | Through Hole | Through Hole |
| Standards | MO-269 | MO-269 |
| Memory Type | DDR3 SDRAM | DDR3 SDRAM |
| Contact Finish | Gold | Gold |
| Number of Positions | 240 | 240 |
| Mounting Feature | Normal, Standard - Top | Normal, Standard - Top |
| Contact Finish Thickness | 15µin (0.38µm) | 15µin (0.38µm) |
| Connector Style | DIMM | RDIMM |
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1. How to choose a suitable memory connector?
When choosing, you need to consider the type of memory module (such as DDR4, DDR5), data transfer rate, voltage requirements, size, and motherboard compatibility. You need to ensure that the connector supports the operating frequency and capacity of the selected memory.
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2. How durable is the memory connector?
The durability of the memory connector usually depends on the material, design, and use environment. High-quality connectors can withstand thousands of plugging and unplugging, and commonly used materials include gold-plated copper, which provides better corrosion resistance and electrical conductivity.
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3. How do memory connectors and sockets prevent signal interference?
High-quality memory connectors usually adopt precision design, use shielding materials and grounding design to reduce signal interference and noise. Reasonable PCB layout also helps improve signal transmission quality.
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4. What are the common faults of memory connectors?
Common faults include connector pin damage, poor contact, dust accumulation or oxidation, electrostatic damage, etc. These problems may cause the memory module to not work properly or performance degradation.
