SFM-147-L2-FM-D-A-K SAMTEC Connector (Other) In Stock
The SFM-147-L2-FM-D-A-K is a 94-position, dual-row, high-reliability socket strip from SAMTEC with a 0.050-inch (1.27 mm) pitch for surface mount assembly. It features gold-plated contacts for stable electrical performance in demanding interconnect applications. Available in surface mount configuration with worldwide shipping for fast procurement.
- Manufacturer
- SAMTEC
- Package
- Other
- Pin Count
- 94
- Lifecycle
- ACTIVE
- Datasheet
- SFM-147-L2-FM-D-A-K Datasheet PDF
- Category
- Connector
- RoHS
- Compliant
- Lead Time
- 3–7 business days
- Shipping
- DHL Express · Worldwide
Key Features
- 94-position dual-row layout at 0.050-inch (1.27 mm) pitch providing high-density interconnect in a compact footprint
- Surface mount termination style enabling automated PCB assembly with reliable solder joint integrity
- High-reliability gold-plated contacts rated for repeated mating cycles in harsh operating environments
Applications
The SFM-147-L2-FM-D-A-K is ideal for high-density board-to-board or mezzanine interconnect applications in test and measurement equipment, embedded computing platforms, and telecommunications hardware. Its 0.050-inch pitch dual-row socket design supports reliable signal integrity across 94 positions, making it suitable for FPGA daughtercard interfaces and high-speed backplane systems.
Compliance & Regulatory
| RoHS Status | Compliant |
| Lead-Free | Yes (Pb-Free) |
Alternate & Equivalent Parts
No known alternates. Submit an RFQ and our team can suggest alternatives.
Frequently Asked Questions
What pitch and how many positions does the SFM-147-L2-FM-D-A-K connector provide?
The SFM-147-L2-FM-D-A-K is a dual-row socket strip with 94 positions at a 0.050-inch (1.27 mm) pitch. This compact 1.27 mm pitch surface mount configuration enables high-density signal routing, making it well-suited for FPGAs, mezzanine cards, and test systems requiring many simultaneous signal connections.
For which board designs is the SFM-147-L2-FM-D-A-K surface mount socket strip best suited?
This 94-position, dual-row, 0.050-inch pitch surface mount socket is best suited for mezzanine board-to-board interconnects, FPGA evaluation boards, and high-density embedded computing platforms. Its surface mount termination supports automated solder reflow assembly, which reduces assembly time and improves repeatability in volume production runs.
How does the 0.050-inch pitch of the SFM-147-L2-FM-D-A-K compare to standard 0.100-inch pitch connectors?
The SFM-147-L2-FM-D-A-K uses a 0.050-inch (1.27 mm) pitch, which is half the standard 0.100-inch (2.54 mm) pitch, allowing 94 positions to fit in approximately half the board space. This tighter pitch saves significant PCB real estate in space-constrained designs such as compact embedded modules, test fixtures, and high-speed digital systems.
Related Guides
ECMF02-4CMX8 Common-Mode Filter with ESD Protection: Selection Guide
Compare ECMF02-4CMX8 vs ECMF02-2AMX6, ECMF04-4HSM10, and other ST ECMF filters. Choose the right 4-channel common-mode filter with ESD protection for USB 2.0.
Jun 20, 2026
AD5204 Quad Digital Potentiometer Selection Guide (2026)
How to choose the right AD5204 quad digital potentiometer: compare 10kΩ vs 100kΩ variants, TSSOP vs SOIC packages, and SPI interface options for your design.
Jun 20, 2026
0402 10uF X5R Decoupling Design Guide for Compact Digital Rails
Application note for using CL05A106MP5NUNC-class 0402 10uF X5R MLCCs in compact digital rail decoupling designs.
Jun 19, 2026
How to Choose an 0805 10uF MLCC for Decoupling and Bulk Capacitance
Selection guide for choosing 0805 10uF MLCCs around CL21A106KOQNNNE, covering derating, dielectric, package, and sourcing checks.
Jun 19, 2026
Why Buy from FindMyChip
About SAMTEC
SAMTEC is a leading electronic component manufacturer. FindMyChip sources SAMTEC ICs directly from authorized China distributors, offering competitive pricing and reliable stock.
In Stock · 24h Response · Worldwide Shipping
Response within 24 hours · Worldwide shipping
“Their engineering team helped us find a pin-compatible alternative when our original MCU went EOL.”