DAC current source bias equalization topology
First Claim
1. A digital-to-analog converter current source having M+N number of bits, comprising:
- a dimension-scaled weighted array of N current sources that conduct N first scaled currents, the array including N first transistors connected to different ones of N second transistors, one of the N first transistors having a dimension w; and
a dimension-scaled weighted cascode current divider comprised of M current sources, the current divider including M third transistors that conduct M second scaled currents which are summed at a node, the node being connected to a master current transistor that conducts a current Is having a magnitude, the master current transistor having a dimension w, the bias of the N first transistors being tied to the node, whereby relative magnitudes of the N first scaled currents remain in correct proportion to relative magnitudes of the M second scaled currents in spite of changes in the magnitude of current Is.
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Accused Products
Abstract
A DAC includes a simple width-scaled weighted array (104) of N number of current sources and a weighted cascode current divider (108) comprised of m number of current sources. The simple width-scaled weighted array conducts N first scaled currents (I0 -I3), the array including N first transistors (116a-116d) connected to different ones of N second transistors (112a-112d), one of the N second transistors (112d) having a gate width w. The weighted cascode current divider includes M current sources, the current divider including M third transistors (120a-120d) that conduct M second scaled currents (I4 -I7) which are summed at a node (134). The node is connected to a master current transistor (138) that conducts a current IS and has a gate width w. In one embodiment, the bias of the N first transistors is tied to the node, whereby relative magnitudes of the N first scaled currents remain in correct proportion to relative magnitudes of the M second scaled currents in spite of changes in the magnitude of current IS. In another embodiment, the first and second inputs to an operational amplifier are connected to the node and the drain of the transistor of the second N transistors having a gate width w, respectively. The output to the operational amplifier is connected to the bias of the N first transistors. The DAC could have twelve bits with, for example, N=6 and M=6.
33 Citations
12 Claims
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1. A digital-to-analog converter current source having M+N number of bits, comprising:
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a dimension-scaled weighted array of N current sources that conduct N first scaled currents, the array including N first transistors connected to different ones of N second transistors, one of the N first transistors having a dimension w; and a dimension-scaled weighted cascode current divider comprised of M current sources, the current divider including M third transistors that conduct M second scaled currents which are summed at a node, the node being connected to a master current transistor that conducts a current Is having a magnitude, the master current transistor having a dimension w, the bias of the N first transistors being tied to the node, whereby relative magnitudes of the N first scaled currents remain in correct proportion to relative magnitudes of the M second scaled currents in spite of changes in the magnitude of current Is. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A digital-to-analog converter current source having M+N number of bits, comprising:
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a dimension scaled weighted array of N current sources that conduct N currents, the array including N first transistors each being connected to one of N second transistors, one of the N first transistors having a dimension w; a dimension scaled weighted cascode current divider comprised of M current sources, the current divider including M third transistors that conduct M currents which are summed at a node, the node being connected to a master current transistor that conducts a current Is, the master current transistor having a dimension w; and operational amplifier means having first and second inputs for receiving respective first and second input voltages and an output for producing a first output voltage whenever the first and second input voltages are equal, and for producing a second output that is indicative of a difference between the first and second input voltages whenever the first and second input voltages are not equal, and the first input being connected to the transistor having the dimension w, the second input being connected to the node, the output being connected to the N first transistors, whereby relative magnitudes of the N first scaled currents remain in correct proportion to relative magnitudes of the M second scaled currents in spite of changes in the magnitude of current Is. - View Dependent Claims (9, 10, 11, 12)
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Specification