Non-volatile memory programmable through areal capacitive coupling
First Claim
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1. A two terminal programmable non-volatile device situated on a substrate comprising:
- a floating gate comprised of polysilicon;
a first n-type diffusion region coupled to a first terminal; and
a second n-type diffusion region coupled to a second terminal; and
wherein the second n-type diffusion region overlaps a sufficient areal portion of said floating gate to permit a threshold voltage of the device to be controlled by a coupling ratio determined by said areal portion and a voltage applied to such second n-type diffusion region;
an n-type channel coupling said first n-type diffusion region and second n-type diffusion region;
wherein said n-type channel is adapted to have a low resistance when the device is in an unprogrammed state, and a high resistance when the device is in a programmed state;
further wherein the device can be placed into a programmed state using a programming voltage applied to said first terminal of said first n-type diffusion region and second terminal of said second n-type diffusion region such that charge can be imparted to said floating gate through areal capacitive coupling.
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Abstract
A programmable non-volatile device is made which uses a floating gate that functions as a FET gate that overlaps a portion of a source/drain region. This allows a programming voltage for the device to be imparted to the floating gate through capacitive coupling, thus changing the state of the device. The invention can be used in environments such as data encryption, reference trimming, manufacturing ID, security ID, and many other applications.
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Citations
20 Claims
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1. A two terminal programmable non-volatile device situated on a substrate comprising:
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a floating gate comprised of polysilicon; a first n-type diffusion region coupled to a first terminal; and a second n-type diffusion region coupled to a second terminal; and wherein the second n-type diffusion region overlaps a sufficient areal portion of said floating gate to permit a threshold voltage of the device to be controlled by a coupling ratio determined by said areal portion and a voltage applied to such second n-type diffusion region; an n-type channel coupling said first n-type diffusion region and second n-type diffusion region; wherein said n-type channel is adapted to have a low resistance when the device is in an unprogrammed state, and a high resistance when the device is in a programmed state; further wherein the device can be placed into a programmed state using a programming voltage applied to said first terminal of said first n-type diffusion region and second terminal of said second n-type diffusion region such that charge can be imparted to said floating gate through areal capacitive coupling. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A one-time programmable (OTP) memory device incorporated on a silicon substrate with one or more other additional logic and/or non-OTP memory devices and programmed through two terminals, characterized in that:
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a. said OTP memory device has a floating gate overlying at least in part an n-type channel situated in an n-type diffusion region; wherein said n-type channel is adapted to have a low resistance when the device is in an unprogrammed state, and a high resistance when the device is in a programmed state; and b. any and all regions and structures of said OTP memory device are derived solely from corresponding regions and structures used as components of the additional logic and/or non-OTP memory devices, including said n-type diffusion region which is used by said devices; c. the OTP memory device can be set to said programmed state by areal capacitive coupling to said floating gate through a voltage applied to the two terminals, including a source terminal and a drain terminal. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20)
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Specification