KR1507 Series Clik Mate Dual Row Wire to Board Connector
These connectors are designed for applications that require higher pin count connectors to carry more signal lines in less space; the system includes a unique tuning-fork terminal concept that provides low-insertion force and secure mating contact.
Pitch | 1.50mm |
Circuits: | 2*4-2*20pin |
Current: | 1.5A |
Voltage: | 100V |
KR1507 Series Clik Mate Dual Row Wire to Board Connector
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General Specifaction
Material: | PBT UL94V0 Copper Alloy |
Insulation O.D | 0.78-1.28mm |
Withstanding Voltage: | 500V AC/ minute |
Temperature Range: | -40℃~+105℃ |
Contact Resistance: | 20m Q/max |
Insulation Resistance: | 100MQ/ min |
Product Plating | Tin over Nickel |
Overview
The KR1507 series connectors have demonstrated their superior performance in responding to the demands of high-density applications, especially for devices that need to be powerful and carry more signal lines in a limited space. The series introduces a pressure internal locking system, which not only ensures solid mating retention, but also provides intuitive feedback of mating confirmation through a distinctive “click” sound. In addition, the tuning fork terminal design optimizes insertion force and ensures reliable mating contact. The KR1507 series also features enhanced metal solder pads, which increase PCB retention and significantly reduce stress on the solder joints, and is available in a wide range of 1.50mm pitch versions, including single-row and dual-row types, as well as SMT access options, providing users with even more flexibility and choice.
Advantages
- Pressure internal locking system
The connectors utilize a pressure internal locking system that provides a firm mating retention and a clear “click” to confirm mating is complete.
- Tuning Fork Terminal Design
This design provides low insertion force and firm mating contact, ensuring a stable and reliable connection.
- Enhanced Metal Solder Lugs
These lugs ensure strong PCB retention and eliminate stress on the solder joints, improving connector durability and performance.