Heavy Duty Connector 48 Pin AC 500 Volt / 16A

Heavy Duty Connector 48 Pin AC 500 Volt / 16A
Heavy Duty Connector 48 Pin AC 500 Volt / 16A
Heavy Duty Connector 48 Pin AC 500 Volt / 16A
Heavy Duty Connector 48 Pin AC 500 Volt / 16A
Heavy Duty Connector 48 Pin AC 500 Volt / 16A
Heavy Duty Connector 48 Pin AC 500 Volt / 16A
Heavy Duty Connector 48 Pin AC 500 Volt / 16A
Heavy Duty Connector 48 Pin AC 500 Volt / 16A
Heavy Duty Connector 48 Pin AC 500 Volt / 16A
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$126.46
Ex Tax: $126.46
  • Stock: In Stock
  • Model: SCJ009629
  • SKU: SCJ009629
Products Sold: 0
Product Views: 271

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  • Description

Brief

48 pin heavy duty connector has 16A working current, 500VAC working voltage and optional 4 shell items for choice. The shell thread is M32. Heavy duty connectors with applicable temperature range -40℃~+125℃ (-40℉~+257℉), protection class IP65, 500 insertion/withdrawal cycles can be used in construction machinery, hot runner system, robots and other automation equipment.

Description

48 pin heavy duty connector with working voltage AC 500 volt and current 16A.

Specification:

BasicModelSCJ009629SOCOJE-HDCN-HE-048-2SOCOJE-HDCN-HE-048-3SOCOJE-HDCN-HE-048-4
Shipping weight1kg
StandardDIN EN 60 664-1, DIN EN 61 984
Number of pins2*(24 pin + PE)
CertificateCCC, CE, ROHS, RU, CSA, TUV
InsertsItemHE-024-M (1-24)
HE-024-M (25-48)
HE-024-M (1-24)
HE-024-M (25-48)
HE-024-M (1-24)
HE-024-M (25-48)
HE-024-M (1-24)
HE-024-M (25-48)
Working current16A
Working voltage500V
Rated pulse voltage urms6kV
Pollution degree3 (C)
Insulation resistance≥1010Ω
MaterialPolycarbonate
Working temperature Range-40℃~+125℃ (-40℉~+257℉)
Flammability according to UL94V0
Working voltage according to UL / CSA600V
Insertion / withdrawal cycles≥500
ContactsItemHE-024-F (1-24)
HE-024-F (25-48)
HE-024-F (1-24)
HE-024-F (25-48)
HE-024-F (1-24)
HE-024-F (25-48)
HE-024-F (1-24)
HE-024-F (25-48)
MaterialCopper alloy
Surface treatmentSilver/ Gold plating
Contact resistance≤1mΩ
Wiring formScrew connection
Wire specification0.75-2.5mm2 AWG 18-14
Tightening torque0.5N·m
ShellHood itemH48B-TS-ROM32H48B-TG-ROM32H48B-TS-ROM32H48B-TG-ROM32
Hood threadM32M32M32M32
Housing itemH48B-AG-LBH48B-AG-LBH48B-SGR-LB-2M32H48B-SGR-LB-2M32
Housing thread--2*M322*M32
MaterialCast aluminum
Surface treatmentPowder-coated, gray
Interlocking elementInterlocking method: metal elastic pressing, material: galvanized iron
Sealing elementNBR
Applicable temperature range-40℃~+125℃ (-40℉~+257℉)
Flammability classV0
Protection classIP65

Inserts and contacts dimension (unit: mm):
Heavy Duty Connector, 48 Pin, AC 500 Volt / 16A
Shell dimension (unit: mm):
Heavy Duty Connector, 48 Pin, AC 500 Volt / 16A
Tips: Why the insertion/withdrawal cycles of the heavy-duty connector are 500 times?
The contact resistance of heavy duty connector is mainly composed of three parts: conductor resistance, shrinkage resistance, and film resistance. The conductor resistance is usually very small (10-8mΩ) and is usually ignored in the calculation. The actual contact resistance usually only considers shrinkage resistance and film resistance.
In the range of ≤500 times, the contact resistance change is relatively stable, because the surface film of the contact is continuously damaged at this stage, and the gold plating layer and the parent metal on the surface of the contact have not started to wear. The film resistance in the resistor will continue to drop, so the contact resistance at 500 times will be lower than that at 250 times. After more than 500 times insertions and withdrawals, the reason for the increase in contact resistance is that with the increase of insertion and withdrawal, the surface coating of the contact body and the continuous wear of the substrate causes the contact surface to be rough, and the contact area is reduced. The elasticity of the contact ring decreases, and the positive contact pressure decreases during insertion and withdrawal, resulting in an increase in contact resistance.
What to do if the customer requires a higher number of insertions/withdrawal cycles?
The simplest method: On the one hand, use a solid film protective agent on the contact body. On the other hand, pay attention to avoid contact with hydrocarbons during connector assembly and use. These two methods are actually to avoid or reduce the generation of film resistance, in order to achieve the purpose of increasing the number of insertion and withdrawal.

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