Non-volatile RAM device
First Claim
1. A dynamic random access memory array having a multiplicity of floating gate field effect transistor dynamic random access memory devices, said field effect transistor random access memory devices each having a control gate (12), a storage capacitor (30) with connected contact (35), a storage node (34), a floating gate (14) and a semiconductor substrate (36)characterized bya multiplicity of non-volatile memory units, respectively associated one per dynamic random access memory device, each comprising a control gate (12), a floating gate (14) and a semiconductor substrate (36) in common with said dynamic random access memory device (13), and each further comprising a source diffusion region (28) with connected source contact (37) for sensing the floating gate (14) upon return of power, and a DEIS stack (18), to charge the floating gate (14), situated adjacent to the floating gate (14) portion of the respectively associated dynamic random access device, remote from its storage node (34), said source diffusion region (28) being separated from said storage node (34) by a field effect transistor switch (38).
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Accused Products
Abstract
Juxtaposing, on a common p-type substrate, an array of field effect transistor memory cells each including a random access memory dynamic RAM device comprising a floating gate portion and a storage node, and each including also a non-volatile unit comprising a double electron injector structure (DEIS) adjacent the floating gate portion, but remote from the storage node, provides a simple, low current dynamic random access memory array with non-volatile restart capability in case of power interruption.
The non-volatile unit in each memory cell shares the control gate and substrate in common with the dynamic RAM device and thus shares access to the floating gate but is remote from the storage node. Situated between the floating gate and the substrate is a silicon-rich DEIS stack. During normal operation, the device functions as a dynamic RAM device. When non-volatile storage is required, electrons are written into the floating gate by raising the voltage on the control gate. This injects electrons into an insulating layer in the DEIS; the electrons flow to the floating gate where they are stored indefinitely. Subsequent write and erase operations are carried out by applying an appropriately polarized voltage pulse to the control gate electrode, moving electrons with respect to the floating gate portion of the RAM device.
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Citations
1 Claim
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1. A dynamic random access memory array having a multiplicity of floating gate field effect transistor dynamic random access memory devices, said field effect transistor random access memory devices each having a control gate (12), a storage capacitor (30) with connected contact (35), a storage node (34), a floating gate (14) and a semiconductor substrate (36)
characterized by a multiplicity of non-volatile memory units, respectively associated one per dynamic random access memory device, each comprising a control gate (12), a floating gate (14) and a semiconductor substrate (36) in common with said dynamic random access memory device (13), and each further comprising a source diffusion region (28) with connected source contact (37) for sensing the floating gate (14) upon return of power, and a DEIS stack (18), to charge the floating gate (14), situated adjacent to the floating gate (14) portion of the respectively associated dynamic random access device, remote from its storage node (34), said source diffusion region (28) being separated from said storage node (34) by a field effect transistor switch (38).
Specification