Sau-Ching Wong
Patent drawing from US 7,808,820, Parallel programming of multiple-bit-per-cell memory cells by controlling program pulsewidth and programming voltagePatent drawing from US 7,808,820, Parallel programming of multiple-bit-per-cell memory cells by controlling program pulsewidth and programming voltagePatent drawing from US 7,808,820, Parallel programming of multiple-bit-per-cell memory cells by controlling program pulsewidth and programming voltagePatent drawing from US 7,808,820, Parallel programming of multiple-bit-per-cell memory cells by controlling program pulsewidth and programming voltage

US 7,808,820

Parallel programming of multiple-bit-per-cell memory cells by controlling program pulsewidth and programming voltage

Filed
August 12, 2008
Granted
October 5, 2010
Assignee
Samsung
Inventors
Sau Ching Wong

Abstract

Write operations that simultaneously program multiple memory cells on the same word line in an MBPC Flash memory employ word line voltage variation, programming pulse width variation, and data-dependent bit line and/or source line biasing to achieve uniform programming accuracy across a range of target threshold voltages. A first type of write operation reaches different target threshold voltages during different time intervals, but uses word line signals that optimize threshold voltage resolution regardless of the target threshold voltage. A second type uses bit line and/or source line biases that depend on the multi-bit data values being written so that different memory cells reach different target threshold voltage at about the same time. Source line biasing can also reduce bit line leakage current through unselected memory cells during read or verify operations. A memory includes divided source lines that permit separate data-dependent source biasing. During or at the end of write operations, remedial programming sequences can adjust the threshold voltages of memory cells that program slowly.

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