| T-Type
Connector
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Uses
rubber conductors and insulators in alternating layers. The
rubber conductor is impregnated with carbon or silver
powder to allow the current to flow through the layer.
This design ensures more than one conductor is always
contacting the electrode surface. Generally used when
application calls for limited space (width). T-Type has
no side insulation. |
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| TS-Type
Connector
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Uses
a T-Type connector supported on both sides by non-conductive rubber
insulating materials. This self-supporting connector has soft outside
insulators that aid in stability and protects the conductive layers
from the environment. These connector types are suitable for
large LCD displays. |
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TG-Type
Connector
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Uses a T-type connector supported on both sides by a sponge
layer. This special sponge layer has closed cell air
pockets that allow the connector to absorb more deformation
than other similar connectors. These connectors are also
suitable for use with large LCD displays. |  |
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| TB-Type
Connector
|
This style is a compression type, which consists of
gold-plated filament lines(1) in the conductive material and insulating
silicone rubber on both sides. This type connector makes a stable
connection possible with lower resistance.
It can be used to replace soldering and also for PCBs, which need
current capacity.
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| IR-Type
Connector
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This style is made of silicone rubber insulating material and used as protective compression footing or as a spacer. The material, hardness or additional specification (with adhesive tape/Mylar tape) can be custom-made.
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| Required Dimensions for Quotation: |
Generally, all elastomeric
connectors are custom made with no tooling charges required. To
quote accurately and in a timely manner, the following information is needed: -
Height (H):
Connector vertical size, from top to bottom. Connector height (H)
is used to calculate the correct compression force (deflection rate) to
be applied for reliable connection. -
Width (W): Side to side thickness of each connector. Connector
width (W) design is critical to eliminating "buckling" when a clamping
force is applied to the connector. Should a connector buckle, the
resistance will rise and total contact may be lost. -
width1(w1): Conductive
material thickness of each connector. Connector conductor width (w1)
helps to determine the connector cost, resistance and rigidity. -
Length (L): Connector end to end dimension. Connector length (L) should always be a consideration as it should fit the application and the customer's chosen bezel (holder). -
Pitch (P): Center to center distance of each connector.
Connector pitch (P) will assure that a reliable connection is made
between the two surfaces. Generally LCD glass and the PCB.
It is recommended that at least three conductors per contact be
utilized. Elastomeric Connector
Budgetary Quotation Request Form
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| General Information: |
The
connector cost is in direct proportion to the amount of conductive
material it contains. Connectors generally require some type of
bezel to aid in assembly and to eliminate alignment problems.
Handling with human hands should be somewhat limited, as oils and
contaminants may cause problems after assembly. Segmented LCD
displays generally require 3 to 4 conductors per pad while graphic
displays may require more conductors.
All data subject to change without notice. 
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