MOS transistor digital-to-analog converter
First Claim
1. A digital to analog converter comprising:
- (a) two current paths, (b) at least two resistances, one resistance in each of said two current paths, each of said two resistances having a first terminal coupled to a switch for selectively coupling said first terminal to one or the other of said two current paths, the second terminal of each of said two resistances being operatively coupled to a constant current source, and (c) each of said two resistances and its associated switch being comprised of a pair of transistors, one current carrying terminal of each of said transistors being operatively coupled to said constant current source, a second current carrying terminal of the first of said transistors being operatively coupled to one of said two current paths and an second current carrying terminal of the second of said transistors being operatively coupled to the second of said two current paths.
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Accused Products
Abstract
A monolithic, low power, digital-to-analog converter (DAC) circuit which uses an efficient transistor element to perform both switching and resistive current division functions simultaneously. This allows a R-2R type ladder network to be built using only conventional MOS transistors which can both switch and accurately divide current among the branches of the ladder network, without the need for separate resistors. The lower parts count and requirement for MOS transistors only, without the need for separate resistors, makes this circuit very compatible with low cost monolithic implementation. The DAC of this patent is useful in an application requiring the multiplication of two analog signals, where one of the signals is presented as a digital word. In this application, a Gilbert multiplier circuit is used to multiply the two signals, Vdig and Vsig, where Vdig represents the binary-weighted discrete levels from the DAC and Vsig is a continuous analog signal. Additionally, in order to obtain linear multiplication over a wide range, the Gilbert multiplier requires the use of a predistortion circuit in conjunction with the Vdig signal coming from the DAC to compensate for the logarithmic current-voltage transfer function of this circuit.
14 Citations
4 Claims
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1. A digital to analog converter comprising:
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(a) two current paths, (b) at least two resistances, one resistance in each of said two current paths, each of said two resistances having a first terminal coupled to a switch for selectively coupling said first terminal to one or the other of said two current paths, the second terminal of each of said two resistances being operatively coupled to a constant current source, and (c) each of said two resistances and its associated switch being comprised of a pair of transistors, one current carrying terminal of each of said transistors being operatively coupled to said constant current source, a second current carrying terminal of the first of said transistors being operatively coupled to one of said two current paths and an second current carrying terminal of the second of said transistors being operatively coupled to the second of said two current paths. - View Dependent Claims (2, 3)
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4. A multiplier circuit for forming the product of an analog signal and a digital signal, said multiplier circuit comprising:
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(a) a Gilbert multiplier having an analog signal as a first input thereto, and (b) a digital to analog converter having a digital input signal and providing a second input to said Gilbert multiplier, said analog converter further comprising;
(c) two current paths, (d) at least two resistances, one resistance in each of said two current paths, each of said two resistances having a first terminal coupled to a switch for selectively coupling said first terminal to one or the other of said two current paths, the second terminal of each of said two resistances being operatively coupled to a constant current source, each of said two resistances and its associated switch being comprised of a pair of transistors, one current carrying terminal of each of said transistors being operatively coupled to said constant current source, a second current carrying terminal of the first of said transistors being operatively coupled to one of said two current paths and a second current carrying terminal of the second of said transistors being operatively coupled to a second of said two current paths, and (e) a circuit operatively coupling a bit of said digital signal to the control terminal of one of said pair of transistors and the inverse of said bit to the control terminal of the other of said pair of transistors.
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Specification