Techniniai dokumentai
Specifikacijos
Markė
HiroseKontaktų skaičius
80
Number Of Rows
2
Pitch
0.5mm
Type
Board to Board
Tvirtinimo tipas
Surface Mount
Body Orientation
Straight
Užbaigimo būdas
Solder
Srovės įvertinimas
500mA
Įtampos reitingas
50 V ac
Serija
FunctionMAX FX20
Contact Material
Phosphor Bronze
Kilmės šalis
Malaysia
Produkto aprašymas
Hirose FunctionMAX FX20 0.5 mm Board to Board Connectors
FunctionMAX FX20 0.5 mm SMT board to board connectors with a unique floating structure that absorbs mounting misalignment errors in applications where multiple stacking connectors are used. The FX20 series header connector has a floating structure embedded inside the fixed base of the housing. This floating structure offers a degree of play between the contacts during mating of + 0.6mm minimum in the XY directions. The floating contacts self centre in both the X & Y direction and absorb misalignment errors ensuring safe and accurate mating. The floating feature of these FX20 board to board connectors also eliminate stress caused by mounting placement errors and prevent resulting solder cracking and the need for corrective re-work to be done. Large mating guides on either side of the header also allow for an alignment movement of ±1.2 mm in the XY directions. These guides make mating easier, prevent incorrect insertion and ensure that a secure connection is made. The floating feature of these FunctionMAX FX20 board to board connectors enables them to withstand severe conditions in industrial and automotive applications. The FX20 receptacle connectors contain self-cleaning dual beam contacts which offer a high resistance to vibration and increased contact reliability. These dual beam contacts are made of a high conductivity material and have 0.5A current capacity per pin. The clearance between the contact and housing is designed to prevent capillary action, protecting the contact area from solder wicking and flux penetration during assembly.
Sandėlio informacija laikinai nepasiekiama.
Patikrinkite dar kartą.
€ 2,04
už 1 vnt. (be PVM)
€ 2,47
už 1 vnt. (su PVM)
Standartas
1
€ 2,04
už 1 vnt. (be PVM)
€ 2,47
už 1 vnt. (su PVM)
Standartas
1
Techniniai dokumentai
Specifikacijos
Markė
HiroseKontaktų skaičius
80
Number Of Rows
2
Pitch
0.5mm
Type
Board to Board
Tvirtinimo tipas
Surface Mount
Body Orientation
Straight
Užbaigimo būdas
Solder
Srovės įvertinimas
500mA
Įtampos reitingas
50 V ac
Serija
FunctionMAX FX20
Contact Material
Phosphor Bronze
Kilmės šalis
Malaysia
Produkto aprašymas
Hirose FunctionMAX FX20 0.5 mm Board to Board Connectors
FunctionMAX FX20 0.5 mm SMT board to board connectors with a unique floating structure that absorbs mounting misalignment errors in applications where multiple stacking connectors are used. The FX20 series header connector has a floating structure embedded inside the fixed base of the housing. This floating structure offers a degree of play between the contacts during mating of + 0.6mm minimum in the XY directions. The floating contacts self centre in both the X & Y direction and absorb misalignment errors ensuring safe and accurate mating. The floating feature of these FX20 board to board connectors also eliminate stress caused by mounting placement errors and prevent resulting solder cracking and the need for corrective re-work to be done. Large mating guides on either side of the header also allow for an alignment movement of ±1.2 mm in the XY directions. These guides make mating easier, prevent incorrect insertion and ensure that a secure connection is made. The floating feature of these FunctionMAX FX20 board to board connectors enables them to withstand severe conditions in industrial and automotive applications. The FX20 receptacle connectors contain self-cleaning dual beam contacts which offer a high resistance to vibration and increased contact reliability. These dual beam contacts are made of a high conductivity material and have 0.5A current capacity per pin. The clearance between the contact and housing is designed to prevent capillary action, protecting the contact area from solder wicking and flux penetration during assembly.