This document was generated on 05/21/2010
PLEASE CHECK WWW.MOLEX.COM FOR LATEST PART INFORMATION
Part Number:
Status:
0447640403
Active
microfit_30
Overview:
Description:
3.00mm (.118") Pitch Micro-Fit 3.0, BMI™ Receptacle Header, Dual Row, Right Angle,
with Press-fit Plastic Pegs, 0.8µm (30µ") Gold (Au) Selective, 4 Circuits
Documents:
3D Model
Drawing (PDF)
Product Specification PS-44300-001 (PDF)
RoHS Certificate of Compliance (PDF)
Series
image - Reference only
China RoHS
ELV and RoHS
Compliant
Agency Certification
CSA
TUV
UL
LR19980
R72081037
E29179
EU RoHS
General
Product Family
Series
Application
Overview
REACH SVHC
Contains SVHC: No
Halogen-Free
Status
PCB Receptacles
44764
Board-to-Board, Wire-to-Board
microfit_30
Not Reviewed
Product Literature Order No
Product Name
USA-106
Micro-Fit 3.0 BMI™
Need more information on product
environmental compliance?
Email productcompliance@molex.com
For a multiple part number RoHS Certificate of
Compliance, click here
Physical
Circuits (Loaded)
4
30
94V-0
No
Phosphor Bronze
Gold
Tin
Durability (mating cycles max)
Flammability
Glow-Wire Compliant
Material - Metal
Material - Plating Mating
Material - Plating Termination
Number of Rows
Please visit the Contact Us section for any
non-product compliance questions.
2
Search Parts in this Series
44764Series
Orientation
PCB Locator
Right Angle
Yes
PCB Retention
Yes
PCB Thickness Recommended (in)
PCB Thickness Recommended (mm)
Packaging Type
0.062 In
1.60 mm
Tray
Mates With
44428 , 44300 , 44432
Pitch - Mating Interface (in)
Pitch - Mating Interface (mm)
Plating min: Mating (µin)
Plating min: Mating (µm)
Plating min: Termination (µin)
Plating min: Termination (µm)
Polarized to PCB
0.118 In
3.00 mm
30.4
0.76
101.6
2.54
Yes
Surface Mount Compatible (SMC)
Temperature Range - Operating
Termination Interface: Style
No
-40°C to +105°C
Through Hole
Electrical
Current - Maximum per Contact
Voltage - Maximum
5A
250V
Solder Process Data
Duration at Max. Process Temperature (seconds)
Lead-free Process Capability
5
Wave Capable (TH only)
1
Max. Cycles at Max. Process Temperature