Examples of 'micromodule' in a sentence
Meaning of "micromodule"
micromodule (noun) - A micromodule is a small unit or component, often in technology or engineering, that serves a specific function. It is used in various technical fields to refer to a compact and integrated part of a larger system
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- A very small scale electronic module
How to use "micromodule" in a sentence
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micromodule
A further embodiment advantageously utilizes an optical micromodule.
The micromodule is thus preserved from temperature stress.
This arrangement in a sheet facilitates access to each micromodule.
Preferred is a micromodule of the loose type.
A plastic or metal ring defines the heightwise dimension of the micromodule.
Smart cards have principally a micromodule included in a card body.
It is this micromodule that has to be inserted in a credit card format card.
An optical cable may contain a single micromodule or a plurality of micromodules.
The integrated circuit chip is generally incorporated in an electronic module or a micromodule.
Electronic micromodule and method for manufacturing the same.
Overflow of the resin can lead to the micromodule being scrapped.
Integrated circuit micromodule obtained by the continuous assembly of patterned strips.
This embodiment is particularly advantageous to reduce the height of the micromodule.
The micromodule must also be properly located in the plane of the card.
The mounting by bonding of the micromodule into a cavity of the plastic support.
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The micromodule transmitters are fitted to simple or double switches as well as push buttons.
The connector of the chip card is constituted by the connector of the micromodule.
A micromodule with perfectly reproducible and controlled dimensions and shape is obtained.
The invention relates to a method for the manufacture of a micromodule with flush connectors.
A micromodule is used as a surface-mounted package on a substrate of interconnections.
Such cables should allow an individual access to each micromodule for distribution in a given building.
The micromodule herein has a protective enclosure 9 made of metal.
Method for continuous assembly of patterned strips and integrated circuit micromodule obtained by said method.
Micromodule according to claim 1, wherein the dielectric strip is made of cardboard.
Preferably, these barriers are made on the contact zones of the micromodule.
Micromodule according to claim 3, wherein said micromodule constitutes an identification label.
However, the reinforcement is strong enough to protect the micromodule itself.
The micromodule according to claim 1, wherein each barrier is in the form of an enclosure.
According to one alternative embodiment, the micromodule may constitute an identification label.
The micromodule gets solidly joined to the card, and the assembly is over.
The partial pre-cutting is performed around a micromodule contained in the card.
In certain cases, micromodule connectors with six contact zones may then be made.
Thus, the antenna no longer works and the micromodule becomes unusable.
The micromodule comprises a plurality of optical fibers, for example a bundle of optical fibers.
In practice, the surface of the connection system of the micromodule is not perfectly flat.
As known per se, a micromodule telecommunication cable comprises a plurality of optical fibers grouped in micromodules.
The self-biasing circuit of transistor 1 is fixed to the box base alongside the micromodule.
Consequently, the micromodule and its belt do not become detached during bending tests.
However, this method imposes technological constraints concerning the thickness and the surface of the micromodule.
Each micromodule 45 implements a data transmission protocol incorporating an anti-collision method of the type described above.
Conventional method of manufacturing a micromodule with contacts is illustrated in FIG . 1.
FIG . 4 is a section through an embodiment of an application of the invention using a micromodule belt.
Figure 2 shows a micromodule telecommunications cable together with the tool of Figure 1.
Detailed description of the preferred embodiments Figure 1 depicts a micromodule 1 of the loose type.
A partial bottom view of the micromodule obtained according to the invention is shown in FIG . 6.
This coil could equally well be provided in the micromodule of FIG . 4.
The micromodule is glued to a support ( not shown ).
An embodiment of a contactless micromodule is shown in FIG . 9.
The micromodule 1 further comprises a thixotropic filling compound 4.
FIG . 1D represents a side view of a micromodule intended to be embedded in the cavity ;.
