Apparatus and method of fast commutation for matrix converter-based rectifier

What is claimed is: 1. A matrix rectifier comprising: first, second, and third phases; and uni-directional switches S ij , where i=1, 2 and j=1, 2, 3, 4, 5, 6 and where uni-directional switches S 1j and S 2j are connected together to define first, second, third, fourth, fifth, and sixth bi-directional switches; wherein first ends of the first, third, and fifth bidirectional switches are connected together to provide a positive-voltage node; first ends of the second, fourth, and sixth bidirectional switches are connected together to provide a negative-voltage node; second ends of the first and fourth bidirectional switches are connected to the first phase; second ends of the third and sixth bidirectional switches are connected to the second phase; second ends of the fifth and second bidirectional switches are connected to the third phase; a zero vector is defined by either uni-directional switches S 1m and S 1n switched on or unidirectional switches S 2m and S 2n switched on, where (m, n)=(1, 4), (3, 6), (5, 2), and by all other uni-directional switches S pq switched off, where p≠m and q≠n; an active vector is defined by either uni-directional switches S 1m and S 1n switched on or uni-directional switches S 2m and S 2n switched on, where m=1, 3, 5; n=2, 4, 6; and m, n are not connected to the same phase, and by all other uni-directional switches S pq switched off, where p≠m and q≠n; Sectors I, II, III, IV, V, and VI are defined by using active vectors with (a, b)=(1, 6), (1, 2), (3, 2), (3, 4), (5, 4), and (5, 6); commutation from an active vector to a zero vector includes: step (a): for an active vector with uni-directional switches S 1m and S 1n switched on, in Sectors I, III, V, turning on uni-directional switch S 1x , where x is chosen such that (m, x)=(1, 4), (3, 6), (5, 2); and in Sectors II, IV, VI, turning on uni-directional switch S 1x , where x is chosen such that (x, n)=(1, 4), (3, 6), (5, 2); or for an active vector with uni-directional switches S 2m and S 2n switched on, in Sectors I, III, V, turning on uni-directional switch S 2y , where y is chosen such that (y, n)=(1, 4), (3, 6), (5, 2); and in Sectors II, IV, VI, turning on uni-directional switch S 2y , where y is chosen such that (m, y)=(1, 4), (3, 6), (5, 2); and step (b): for the active vector with uni-directional switches S 1m and S 1n initially switched on, in Sectors I, III, V, turning off uni-directional switch S 1n ; and in Sectors II, IV, VI, turning off uni-directional switch S 1m ; or for the active vector with uni-directional switches S 2m and S 2n initially switched on, in Sectors I, III, V, turning off uni-directional switch S 2m ; in Sectors II, IV, VI, turning off uni-directional switch S 2n ; the commutation includes not measuring output current or input voltage. 2. A matrix rectifier comprising: first, second, and third phases; and uni-directional switches S ij , where i=1, 2 and j=1, 2, 3, 4, 5, 6 and where uni-directional switches S 1j and S 2j are connected together to define first, second, third, fourth, fifth, and sixth bi-directional switches; wherein first ends of the first, third, and fifth bidirectional switches are connected together to provide a positive-voltage node; first ends of the second, fourth, and sixth bidirectional switches are connected together to provide a negative-voltage node; second ends of the first and fourth bidirectional switches are connected to the first phase; second ends of the third and sixth bidirectional switches are connected to the second phase; second ends of the fifth and second bidirectional switches are connected to the third phase; a zero vector is defined by either uni-directional switches S 1m and S 1n switched on or unidirectional switches S 2m and S 2n switched on, where (m, n)=(1, 4), (3, 6), (5, 2), and by all other uni-directional switches S pq switched off, where p≠m and q≠n; an active vector is defined by either uni-directional switches S 1m and S 1n switched on or uni-directional switches S 2m and S 2n switched on, where m=1, 3, 5; n=2, 4, 6; and m, n are not connected to the same phase, and by all other uni-directional switches S pq switched off, where p≠m and q≠n; and Sectors I, II, III, IV, V, and VI are defined by using active vectors with (a, b)=(1, 6), (1, 2), (3, 2), (3, 4), (5, 4), and (5, 6); commutation from a zero vector to an active vector includes: step (a): for a zero vector with uni-directional switches S 1m and S 1n switched on, in Sectors I, III, V, turning on uni-directional switch S 1x , where x=1, 3, 5 and x is chosen such that a negative voltage is provided at the positive-voltage node; and in Sectors II, IV, VI, turning on uni-directional switch S 1x , where x=2, 4, 6 and x is chosen such that a positive voltage is provided at the negative-voltage node; or for a zero vector with uni-directional switches S 2m and S 2n switched on, in Sectors I, III, V, turning on uni-directional switch S 2y , where y=2, 4, 6 and y is chosen such that a positive voltage is provided at the negative-voltage node; and in Sectors II, IV, VI, turning on uni-directional switch S 2y , where y=1, 3, 5 and y is chosen such that a negative voltage is provided at the positive-voltage node; step (b): for the zero vector with uni-directional switches S 1m and S 1n initially switched on, in Sectors I, III, V, turning off uni-directional switch S 1m ; and in Sectors II, IV, VI, turning off uni-directional switch S 1n ; or for the zero vector with uni-directional switches S 2m and S 2n initially switched on, in Sectors I, III, V, turning off uni-directional switch S 2n ; and in Sectors II, IV, VI, turning off uni-directional switch S 2m ; and step (c): for the zero vector with uni-directional switches S 1m and S 1n initially switched on, in Sectors I, III, V, turning off uni-directional switches S 1x and S 1n and turning on uni-directional switches S 2x and S 2n ; and in Sectors II, IV, VI, turning off uni-directional switches S 1x and S 1m and turning on uni-directional switches S 2x and S 2m ; or for the zero vector with uni-directional switches S 2m and S 2n initially switched on, in Sectors I, III, V, turning off uni-directional switches S 2m and S 2y and turning on uni-directional switches S 1m and S 1y ; and in Sectors II, IV, VI, turning off uni-directional switches S 2n and S 2y and turning on uni-directional switches S 1n and S 1y ; the commutation includes not measuring output current or input voltage.