Incremental printing of symbolic information – Ink jet – Controller
Reexamination Certificate
2004-05-10
2004-11-02
Meier, Stephen D. (Department: 2853)
Incremental printing of symbolic information
Ink jet
Controller
C347S054000
Reexamination Certificate
active
06811242
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to a method of detecting and, if appropriate, remedying a fault in a micro electromechanical (MEM) device. The invention has application in ink ejection nozzles of the type that are fabricated by integrating the technologies applicable to micro electromechanical systems (MEMS) and complementary metal-oxide semiconductor (CMOS) integrated circuits, and the invention is hereinafter described in the context of that application. However, it will be understood that the invention does have broader application, to the remedying of faults within various types of MEM devices.
BACKGROUND OF THE INVENTION
A high speed pagewidth inkjet printer has recently been developed by the present Applicant. This typically employs in the order of 51200 inkjet nozzles to print on A4 size paper to provide photographic quality image printing at 1600 dpi. In order to achieve this nozzle density, the nozzles are fabricated by integrating MEMS-CMOS technology.
A difficulty that flows from the fabrication of such a printer is that there is no convenient way of ensuring that all nozzles that extend across the printhead or, indeed, that are located on a given chip will perform identically, and this problem is exacerbated when chips that are obtained from different wafers may need to be assembled into a given printhead. Also, having fabricated a complete printhead from a plurality of chips, it is difficult to determine the energy level required for actuating individual nozzles, to evaluate the continuing performance of a given nozzle and to detect for any fault in an individual nozzle.
SUMMARY OF THE INVENTION
The present invention may be defined broadly as providing a method of detecting a fault within a micro electromechanical device of a type having a support structure, an actuating arm that is movable relative to the support structure under the influence of heat inducing current flow through the actuating arm and a movement sensor associated with the actuating arm. The method comprises the steps of:
(a) passing at least one current pulse having a predetermined duration t
p
through the actuating arm, and
(b) detecting for a predetermined level of movement of the actuating arm.
The method as above defined permits in-service fault detection of the micro electromechanical (MEM) device. If the predetermined level of movement is not detected following passage of the current pulse of the predetermined duration through the arm, it might be assumed that movement of the arm is impeded, for example as a consequence of a fault having developed in the arm or as a consequence of an impediment blocking the movement of the arm.
If it is concluded that a fault in the form of a blockage exists in the MEM device, an attempt may be made to clear the fault by passing at least one further current pulse (having a higher energy level) through the actuating arm.
Thus, the present invention may be further defined as providing a method of detecting and remedying a fault within an MEM device. The two-stage method comprises the steps of:
(a) detecting the fault in the manner as above defined, and
(b) remedying the fault by passing at least one further current pulse through the actuating arm at an energy level greater than that of the fault detecting current pulse.
If the remedying step fails to correct the fault, the MEM device may be taken out of service and/or be returned to a supplier for service.
The fault detecting method may be effected by passing a single current pulse having a predetermined duration t
p
through the actuating arm and detecting for a predetermined level of movement of the actuating arm. Alternatively, a series of current pulses of successively increasing duration t
p
may be passed through the actuating arm in an attempt to induce successively increasing degrees of movement of the actuating arm over a time period t. Then, detection will be made for a predetermined level of movement of the actuating arm within a predetermined time window t
w
where t>t
w
>t
p
.
PREFERRED FEATURES OF THE INVENTION
The fault detection method of the invention preferably is employed in relation to an MEM device in the form of a liquid ejector and most preferably in the form of an ink ejection nozzle that is operable to eject an ink droplet upon actuation of the actuating arm. In this latter preferred form of the invention, the second end of the actuating arm preferably is coupled to an integrally formed paddle which is employed to displace ink from a chamber into which the actuating arm extends.
The actuating arm most preferably is formed from two similarly shaped arm portions which are interconnected in interlapping relationship. In this embodiment of the invention, a first of the arm portions is connected to a current supply and is arranged in use to be heated by the current pulse or pulses having the duration t
p
. However, the second arm portion functions to restrain linear expansion of the actuating arm as a complete unit and heat induced elongation of the first arm portion causes bending to occur along the length of the actuating arm. Thus, the actuating arm is effectively caused to pivot with respect to the support structure with heating and cooling of the first portion of the actuating arm.
The invention will be more fully understood from the following description of a preferred embodiment of a fault detecting method as applied to an inkjet nozzle as illustrated in the accompanying drawings.
REFERENCES:
patent: 6322194 (2001-11-01), Silverbrook
Dudding Alfred
Meier Stephen D.
Silverbrook Research Pty LTD
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