UNLIMITED FREE
ACCESS
TO THE WORLD'S BEST IDEAS

SUBMIT
Already a GlobalSpec user? Log in.

This is embarrasing...

An error occurred while processing the form. Please try again in a few minutes.

Customize Your GlobalSpec Experience

Finish!
Privacy Policy

This is embarrasing...

An error occurred while processing the form. Please try again in a few minutes.

ECIA - EIA-364-56

Test Procedure No. 56 Resistance to Soldering Heat Test Procedure for Electrical Connectors

inactive
Buy Now
Organization: ECIA
Publication Date: 1 November 1987
Status: inactive
Page Count: 10
scope:

PURPOSE

This test is performed for the purpose of determining whether component parts can withstand the effects of the heat to which they will be subjected during the soldering of their terminations by solder dip, soldering iron, solder wave, or reflow soldering techniques. The heat can be either conducted heat through the termination into the component part, or radiant heat from the solder bath when in close proximity to the body of the component part, or both. In order to establish a standard test procedure using simple and readily available equipment, the solder dip method is used as a reasonably close simulation of conditions encountered in wave soldering in regard to radiated and conducted heat. The heat of soldering can cause solder reflow which may affect the electrical characteristics of the component part and may cause damage to the materials making up the part, e .g., loosening of terminations or windings, softening or distortion of insulation materials, opening of solder seals, weaking of mechanical joints, etc.

Document History

November 1, 2011
TP-56E Resistance to Soldering Heat Test Procedure for Electrical Connectors and Sockets
This standard establishes a test method for determining if connectors or sockets can withstand exposure to soldering conditions either by soldering iron, solder dip, solder wave, or reflow soldering...
November 1, 2011
TP-56E Resistance to Soldering Heat Test Procedure for Electrical Connectors and Sockets
This standard establishes a test method for determining if connectors or sockets can withstand exposure to soldering conditions either by soldering iron, solder dip, solder wave, or reflow soldering...
November 1, 2011
TP-56E RESISTANCE TO SOLDERING HEAT TEST PROCEDURE FOR ELECTRICAL CONNECTORS AND SOCKETS
This standard establishes a test method for determining if connectors or sockets can withstand exposure to soldering conditions either by soldering iron, solder dip, solder wave, or reflow soldering...
February 28, 2008
TP-56D RESISTANCE TO SOLDERING HEAT TEST PROCEDURE FOR ELECTRICAL CONNECTORS AND SOCKETS
This standard establishes a test method for determining whether connectors can withstand the effects of the heating and/or environment that they will be subjected to during the soldering of their...
August 1, 2006
TP-56C Resistance to Soldering Heat Test Procedure for Electrical Connectors and Sockets
This standard establishes a test  method for determining whether connectors can withstand the effects of the heating and/or environment that they will be subjected to during the soldering of their...
April 1, 2005
TP-56-B Resistance to Soldering Heat Test Procedure for Electrical Connectors and Sockets
This standard establishes a test method for determining whether connectors can withstand the effects of the heating and/or environment that they will be subjected to during the soldering of their...
January 1, 1991
TP-56 Resistance to Soldering Heat Test Procedure for Electrical Connectors
Purpose This test is performed for the purpose of determining whether connectors can withstand the effects of the heating and/or environment to which they will be subjected during the soldering of...
January 1, 1991
TP-56 Resistance to Soldering Heat Test Procedure for Electrical Connectors
A description is not available for this item.
EIA-364-56
November 1, 1987
Test Procedure No. 56 Resistance to Soldering Heat Test Procedure for Electrical Connectors
PURPOSE This test is performed for the purpose of determining whether component parts can withstand the effects of the heat to which they will be subjected during the soldering of their terminations...
Advertisement