Two-device memory cell on SOI for merged logic and memory applications
First Claim
1. A memory cell comprising:
- a first field-effect transistor having a source, a drain, a gate, and a body;
a second field-effect transistor having a source connected to the body of the first field effect transistor, a gate for receiving an external write control signal, and a drain for receiving an external bit signal, for selectively charging the body of the first transistor between a depleted and non-depleted condition, in response to a voltage level of said external write control signal, based on said external bit signal.
1 Assignment
0 Petitions
Accused Products
Abstract
A two-MOSFET device memory cell, based on conventional SOI complementary metal oxide technology, in which charge is stored on the body of a first MOSFET, with a second MOSFET connected to the body for controlling the charge in accordance with an information bit. Depending on the stored charge, the body of the first MOSFET is in depletion or non-depletion condition. A reference voltage connected to the gate of the first MOSFET causes a bipolar current flow in response to a pulsed voltage on the first MOSFET'"'"'s source when the MOSFET is in a non-depletion condition, due to a temporary forward bias of the source to body junction. The bipolar current substantially adds to the field-effect current, thereby multiplying the effective charge read from the first MOSFET.
271 Citations
10 Claims
-
1. A memory cell comprising:
-
a first field-effect transistor having a source, a drain, a gate, and a body; a second field-effect transistor having a source connected to the body of the first field effect transistor, a gate for receiving an external write control signal, and a drain for receiving an external bit signal, for selectively charging the body of the first transistor between a depleted and non-depleted condition, in response to a voltage level of said external write control signal, based on said external bit signal. - View Dependent Claims (2, 3)
-
-
4. A memory apparatus comprising:
-
means for generating a write word signal, a read word signal and a precharge signal; means for generating a power voltage and a gate reference voltage; a first field-effect transistor having a source connected to the read word signal, a drain connected to the precharge signal, a gate connected to the gate reference voltage, and a body; charging means for receiving the write word signal and an externally generated write bit signal and for selectively charging and discharging the body of the first field-effect transistor between a depleted condition and a non-depleted condition representative of the externally generated write bit signal in response to the write word signal, wherein the gate reference voltage is set relative to a voltage of the read word signal so that, when the body of the first field effect transistor is in the non-depleted condition, the read word signal forward biases a junction between the source and the body of the first field-effect transistor in response, whereby said forward biasing effects a bipolar current flowing into the drain of the first field effect transistor when the first field effect transistor is in said non-depleted condition. - View Dependent Claims (5, 6)
-
-
7. A digital logic and memory apparatus comprising:
-
means for generating a plurality of write word signals, a plurality of read word signals, a plurality of precharge signals, and a bit; means for generating a power voltage and a gate reference voltage; an array of memory cells, each memory cell comprising; a first field-effect transistor having a source connected to a read word signal from said plurality of read word signals, a drain connected to a precharge signal from said plurality of precharge signals, a gate connected to the gate reference voltage, and a body; and charging means for receiving a write word signal from said plurality of write word signals and an externally generated write bit signal and for selectively charging and discharging the body of the first field-effect transistor between a depleted condition and a non-depleted condition representative of the externally generated write bit signal in response to the received write word signal, wherein the gate reference voltage is set relative to a voltage of the received read word signal so that, when the body of the first field effect transistor is in the non-depleted condition, the read word signal forward biases a junction between the source and the body of the first field-effect transistor in response, whereby said forward biasing effects a bipolar current flowing into the drain of the first field effect transistor when the first field effect transistor is in said non-depleted condition. - View Dependent Claims (8, 9)
-
-
10. A method for storing information comprising steps of:
-
receiving an information signal representative of the information to be stored, said information signal having a first voltage representative of a first information and a second voltage representative of a second information; and selectively charging a body of a field effect transistor to a depletion state in response to the information signal having the first voltage and to a non-depleted state in response to the information signal having the second voltage.
-
Specification