INTEGRATED TRANSFORMER SYNTHESIS AND OPTIMIZATION
First Claim
1. An apparatus for designing a transformer in an integrated circuit, the apparatus comprising:
- a processor; and
a user interface adapted to allow a user to input one or more desired characteristics of the transformer;
wherein the one or more desired characteristics include load impedances at primary and secondary coils of the transformer;
wherein the processor is configured to determine sufficient optimal characteristics of the transformer to define the transformer for fabrication in the integrated circuit by performing the steps of;
combining the one or more desired characteristics with other preset characteristics of the transformer or the integrated circuit,defining a first model of the transformer with typical load impedances,simulating the first model having the combined characteristics to determine performance,processing results of the simulation to calculate performance with the load impedances specified by the user,processing the results to obtain a mathematical model that includes tuning capacitors by solving a constrained optimization problem to determine optimal values of the tuning capacitors based on the one or more desired characteristics and one or more optimization targets, whereby, given a transformer described by;
a set of S-parameter matrices S,sampled at a set of frequencies F={f(1), . . . f(M},and given an operating frequency f(i), with I in {1, . . . M},a pair of primary/secondary loads Zp, Zs, which may be defined either as fixed complex numbers or as RL/RC series/parallel circuits,a pair of tuning capacitors c1, c2 are calculated such that insertion loss S12′
(i) of the tuned circuit is maximal, subject to the following constraints;
the capacitor values are restricted byc1 in [c1min, c1max], andc2 in [c2min, c2max]return losses are restricted byS11′
<
=RL—
max, andS22′
<
=RL—
max Bandwidth [f(i)−
f_BW1, f(i)+f_BW2] of s12′
is restricted byF_BW1>
=BW—
min, andF_BW2<
=BW—
max inferring a modification of the first model based on general dependency of at least one design criterion, selected from at least a physical, geometrical or performance characteristic, with another design criterion, anditeratively determining a design solution for the transformer through one or more simulations and inferred modifications.
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Abstract
A method for designing a transformer in an integrated circuit includes receiving one or more desired characteristics of the transformer from user input and iteratively determining a design solution for the transformer through one or more simulations and modifications using a rule-set. The method combines the one or more desired characteristics with other preset characteristics of the transformer or the integrated circuit. A first model of the transformer is defined with typical load impedances and simulated having the combined characteristics to determine performance. Results of the simulation are processed to calculate performance with the load impedances specified by the user. The results are further processed to obtain a mathematical model that includes tuning capacitors. The first and subsequent models are modified by drawing on a rule-set of expert knowledge relating to general dependency of at least one design criterion, such as a physical, geometrical or performance characteristic, with another design criterion.
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Citations
15 Claims
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1. An apparatus for designing a transformer in an integrated circuit, the apparatus comprising:
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a processor; and a user interface adapted to allow a user to input one or more desired characteristics of the transformer; wherein the one or more desired characteristics include load impedances at primary and secondary coils of the transformer; wherein the processor is configured to determine sufficient optimal characteristics of the transformer to define the transformer for fabrication in the integrated circuit by performing the steps of; combining the one or more desired characteristics with other preset characteristics of the transformer or the integrated circuit, defining a first model of the transformer with typical load impedances, simulating the first model having the combined characteristics to determine performance, processing results of the simulation to calculate performance with the load impedances specified by the user, processing the results to obtain a mathematical model that includes tuning capacitors by solving a constrained optimization problem to determine optimal values of the tuning capacitors based on the one or more desired characteristics and one or more optimization targets, whereby, given a transformer described by; a set of S-parameter matrices S, sampled at a set of frequencies F={f(1), . . . f(M}, and given an operating frequency f(i), with I in {1, . . . M}, a pair of primary/secondary loads Zp, Zs, which may be defined either as fixed complex numbers or as RL/RC series/parallel circuits, a pair of tuning capacitors c1, c2 are calculated such that insertion loss S12′
(i) of the tuned circuit is maximal, subject to the following constraints;the capacitor values are restricted by c1 in [c1min, c1max], and c2 in [c2min, c2max] return losses are restricted by S11′
<
=RL—
max, andS22′
<
=RL—
maxBandwidth [f(i)−
f_BW1, f(i)+f_BW2] of s12′
is restricted byF_BW1>
=BW—
min, andF_BW2<
=BW—
maxinferring a modification of the first model based on general dependency of at least one design criterion, selected from at least a physical, geometrical or performance characteristic, with another design criterion, and iteratively determining a design solution for the transformer through one or more simulations and inferred modifications. - View Dependent Claims (2, 3, 4, 5)
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6. A method for designing a transformer in an integrated circuit, the method comprising:
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receiving one or more desired characteristics of the transformer from a user input device; combining the one or more desired characteristics with other preset characteristics of the transformer or the integrated circuit; using a model extraction engine to define a first model of the transformer with typical load impedances; using a simulator to simulate the first model having the combined characteristics to determine performance; processing results of the simulation of the first model to calculate performance with the load impedances specified by the user; processing the results to obtain a mathematical model that includes tuning capacitors by solving a constrained optimization problem to determine optimal values of the tuning capacitors based on the one or more desired characteristics and one or more optimization targets, whereby, given a transformer described by; a set of S-parameter matrices S, sampled at a set of frequencies F={f(1), . . . f(M}, and given an operating frequency f(i), with I in {1, . . . M}, a pair of primary/secondary loads Zp, Zs, which may be defined either as fixed complex numbers or as RL/RC series/parallel circuits, a pair of tuning capacitors c1, c2 are calculated such that insertion loss S12′
(i) of the tuned circuit is maximal, subject to the following constraints;the capacitor values are restricted by c1 in [c1min, c1max], and c2 in [c2min, c2max] return losses are restricted by S11′
<
=RL—
max, andS22′
<
=RL—
maxBandwidth [f(i)−
f_BW1, f(i)+f_BW2] of s12′
is restricted byF_BW1>
=BW—
min, andF_BW2<
=BW—
max;using an inference engine to infer a modification of the first model based on a general dependency of at least one design criterion, selected from a physical, geometrical or performance characteristic, with another design criterion; and iteratively determining a design solution for the transformer through one or more simulations and inferred modifications. - View Dependent Claims (7, 8, 9, 10)
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11. A non-transitory machine readable medium having instructions thereon that when executed cause an apparatus to:
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receive one or more desired characteristics of a transformer from user input; combine the one or more desired characteristics with other preset characteristics of the transformer or an integrated circuit of which the transformer is a component; define a first model of the transformer with typical load impedances; simulate the first model having the combined characteristics to determine performance; process results of the simulation to calculate performance with the load impedances specified by the user by solving a constrained optimization problem to determine optimal values of the tuning capacitors based on the one or more desired characteristics and one or more optimization targets, whereby, given a transformer described by; a set of S-parameter matrices S, sampled at a set of frequencies F={f(1), . . . f(M}, and given an operating frequency f(i), with I in {1, . . . M}, a pair of primary/secondary loads Zp, Zs, which may be defined either as fixed complex numbers or as RL/RC series/parallel circuits, a pair of tuning capacitors c1, c2 are calculated such that insertion loss S12′
(i) of the tuned circuit is maximal, subject to the following constraints;the capacitor values are restricted by c1 in [c1min, c1max], and c2 in [c2min, c1max] return losses are restricted by S11′
<
=RL—
max, andS22′
<
=RL—
maxBandwidth [f(i)−
f_BW1, f(i)+f_BW2] of s12′
is restricted byF_BW1>
=BW—
min, andF_BW2<
=BW—
max;process the results to obtain a mathematical model that includes tuning capacitors; infer a modification of the first model based on general dependency of at least one design criterion, selected form a physical, geometrical or performance characteristic, with another design criterion; and iteratively determine a design solution for the transformer through one or more simulations and inferred modifications. - View Dependent Claims (12, 13, 14, 15)
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Specification