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Rev 7.0
November 07, 2016
49
10. Mechanical Constraints
10.1. Micro-Fit Connector
The following table lists the mechanical constraints that must be taken into account when using the 8-
pin Micro-Fit connector
.
Table 35.
Micro-Fit Connector Mechanical Constraints
Description
Mechanical Limit
Notes
Connector Mate and
Unmate Forces
MINIMUM withdrawal force: 3.7N
(0.8lbf)
This is the least amount of force needed to unplug
the cable from the 8-pin Micro-Fit connector.
MAXIMUM insertion force: 8.0N
(1.8lbf)
This is the maximum amount of force that should
be used when inserting a male connector into the
8-pin Micro-Fit connector. Using force greater than
this might damage the Micro-Fit connector.
Terminal Retention
Force (in housing)
MINIMUM retention force: 24.5N
(5.5lbf)
This is the least amount of force needed to keep
the power supply cable connected to the 8-pin
Micro-Fit connector.
Terminal Insertion
Force (into housing)
MAXIMUM insertion force: 14.7N
(3.3lbf)
This is the maximum amount of force that should
be used when pushing in the power supply cable
into the 8-pin Micro-Fit connector. Using force
greater than this might damage the Micro-Fit
connector.
10.2. FME RF Connector
The following table lists the mechanical constraints that must be taken into account when using the
FME RF connector.
Table 36.
FME RF Connector Mechanical Constraints
Mating Force
M8XP .75 thd.
Содержание AirLink GL8200
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