Hydrophobic coating for reducing humidity effect in electrostatic actuators
First Claim
1. A touch mode electrostatic actuator device, comprising:
- first and second electrode driven surfaces positioned to move between a spaced apart relationship and a contact relationship;
a hydrophilic dielectric layer on each of said first and second electrode surfaces;
a source of electrical potential to selectively actuate and discharge said dielectric layers to cause said movement between said relationships; and
a hydrophobic layer on each of said hydrophilic layers for preventing absorption of water thereon, said hydrophobic layers being adapted to prevent cancellation of the electrostatic field/force at the interface of said hydrophobic layers and to cause condensed water to form drops and prevent formation of a continuous water layer, whereby vibratory motion between said surfaces of said actuator is prevented.
1 Assignment
0 Petitions
Accused Products
Abstract
A touch mode electrostatic actuator and method of making the same, having first and second electrode driven surfaces positioned to move between a spaced apart relationship and a contact relationship when dielectric layer on each of the first and second electrode surfaces is subjected to a source of electrical potential to selectively actuate and discharge the dielectric layers to cause the movement between the relationships. The electrostatic actuators of this invention includes a hydrophobic layer for preventing absorption of water thereon, the hydrophobic layers being adapted to cause condensed water to form drops and prevent formation of a continuous water layer. The hydrophobic layer may be a coating on a hydrophilic actuator or, alternatively, may be made entirely from a hydrophobic material. The preferred hydrophobic material is selected from a group consisting of organic materials such as octadecyltrichlorosilane, perfluoro-decyltrichlorosilane, tetrafluoroethylene, and inorganic materials such as a diamond type carbon layer. The hydrophobic layer is electrically isolating and chemically stable in its intended environment. In the preferred embodiments, the hydrophobic material is applied to the hydrophilic dielectric layer by a method selected from dipping, plasma deposition, Langmuir-Blodgett technique, sputtering and CVD deposition.
254 Citations
18 Claims
-
1. A touch mode electrostatic actuator device, comprising:
-
first and second electrode driven surfaces positioned to move between a spaced apart relationship and a contact relationship; a hydrophilic dielectric layer on each of said first and second electrode surfaces; a source of electrical potential to selectively actuate and discharge said dielectric layers to cause said movement between said relationships; and a hydrophobic layer on each of said hydrophilic layers for preventing absorption of water thereon, said hydrophobic layers being adapted to prevent cancellation of the electrostatic field/force at the interface of said hydrophobic layers and to cause condensed water to form drops and prevent formation of a continuous water layer, whereby vibratory motion between said surfaces of said actuator is prevented. - View Dependent Claims (2, 3, 4)
-
-
5. In a touch mode electrostatic actuator having a first and second electrode driven surfaces positioned to move between a spaced apart relationship and a contact relationship, a hydrophilic dielectric layer on each of said first and second electrode surfaces, and a source of electrical potential to selectively actuate and discharge said dielectric layers to cause said movement between said relationships, the improvement comprising:
a hydrophobic layer on each of said hydrophilic layers for preventing absorption of water thereon, said hydrophobic layers being adapted to prevent cancellation of the electrostatic field/force at the interface of said hydrophobic layers and to cause condensed water to form drops and prevent formation of a continuous water layer, whereby vibratory motion between said surfaces of said actuator is prevented. - View Dependent Claims (6, 7, 8)
-
9. A method of making a touch mode electrostatic actuator, comprising the steps of:
-
forming first and second electrode driven surfaces and positioning said surfaces to move between a spaced apart relationship and a contact relationship; forming a hydrophilic dielectric layer on each of said first and second electrode surfaces; providing a source of electrical potential to selectively actuate and discharge said dielectric layers to cause said movement between said relationships; and forming a hydrophobic layer on each of said hydrophilic layers for preventing absorption of water thereon, said hydrophobic layers being adapted to prevent cancellation of the electrostatic field/force at the interface of said hydrophobic layers and to cause condensed water to form drops and prevent formation of a continuous water layer, whereby vibratory motion between said surfaces of said actuator is prevented. - View Dependent Claims (10, 11, 12)
-
-
13. A method of making a touch mode electrostatic actuator, comprising the steps of:
-
forming first and second electrode driven surfaces and positioning said surfaces to move between a spaced apart relationship and a contact relationship; forming a hydrophobic dielectric layer on each of said first and second electrode surfaces for preventing absorption of water thereon, said hydrophobic layers being adapted to prevent cancellation of the electrostatic field/force at the interface of said hydrophobic layers and to cause condensed water to form drops and prevent formation of a continuous water layer, whereby vibratory motion between said surfaces of said actuator is prevented; and providing a source of electrical potential to selectively actuate and discharge said dielectric layers to cause said movement between said relationships. - View Dependent Claims (14, 15)
-
-
16. A touch mode electrostatic actuator device, comprising:
-
first and second electrode driven surfaces positioned to move between a spaced apart relationship and a contact relationship; a hydrophobic dielectric layer on each of said first and second electrode surfaces, said hydrophobic layer being adapted to prevent cancellation of the electrostatic field/force at the interface of said hydrophobic layers and to cause condensed water to form drops and prevent formation of a continuous water layer whereby vibratory motion between said surfaces of said actuator is prevented; and a source of electrical potential to selectively actuate and discharge said dielectric layers to cause said movement between said relationships. - View Dependent Claims (17, 18)
-
Specification