1-102473-5
Connectors, Electrical
CONNECTOR,RECEPTACLE,ELECTRICAL
1-102473-5
CONNECTOR,RECEPTACLE,ELECTRICAL
ACT NOW! SUBMIT A QUICK QUOTE.
Technical Characteristics
-
Contact Removability
nonremovable single mating end single contact grouping
-
Body Style
right angle type
-
Environmental Protection
heat resistant and cold resistant and humidity resistant and vibration resistant and shock resistant and thermal shock resistant and corrosion resistant
-
Precious Material And Weight
0.030 gold grains, troy
-
Body Height
0.228 inches minimum and 0.248 inches maximum
-
Terminal Type
pin single mating end single contact grouping
-
Mating End Quantity
1
-
Terminal Location
side single mating end single contact grouping
-
End Item Identification
5820-01-261-6618 radio set
-
Overall Width
0.310 inches nominal
-
Precious Material
gold
-
Contact Surface Treatment
gold single mating end single contact grouping and nickel single mating end single contact grouping
-
Contact Position Arrangement Style
2 rows of contacts non-inserted board single mating end
-
Overall Length
1.540 inches nominal
-
Contact Material
copper alloy single mating end single contact grouping
-
Included Contact Quantity
30 single mating end single contact grouping
-
Insert Material
plastic diallyl phthalate single mating end and glass fiber single mating end
-
Included Contact Type
hermaphrodite single mating end single contact grouping
-
Insert Material Document And Classification
mil-m-14 mil spec all material responses single mating end
-
Contact Maximum Current Rating In Amps
3.0 single mating end single contact grouping
-
Contact Surface Treatment Document And Classification
mil-g-45204 mil spec 1st treatment response single mating end single contact grouping and qq-n-290 fed spec 2nd treatment response single mating end single contact grouping
-
Contact Material Document And Classification
qq-c-532 fed spec single material response single mating end single contact grouping
-
Precious Material And Location
contact surfaces gold
-
Connector Locking Method
friction