Frequency jittering control for varying the switching frequency of a power supply
DC CAFCFirst Claim
1. A digital frequency jittering circuit for varying the switching frequency of a power supply, comprising:
- an oscillator for generating a signal having a switching frequency, the oscillator having a control input for varying the switching frequency;
a digital to analog converter coupled to the control input for varying the switching frequency; and
a counter coupled to the output of the oscillator and to the digital to analog converter, the counter causing the digital to analog converter to adjust the control input and to vary the switching frequency.
1 Assignment
Litigations
2 Petitions
Reexaminations
Accused Products
Abstract
EMI emission is reduced by jittering the switching frequency of a switched mode power supply. An oscillator with a control input for varying the oscillator'"'"'s switching frequency generates a jittered clock signal. In one embodiment, the oscillator is connected to a counter clocked by the oscillator. The counter drives a digital to analog converter, whose output is connected to the control input of the oscillator for varying the oscillation frequency. In another embodiment, the oscillator is connected to a low frequency oscillator whose low frequency output is used to supplement the output of the oscillator for jittering the switching frequency. The invention thus deviates or jitters the switching frequency of the switched mode power supply oscillator within a narrow range to reduce EMI noise by spreading the energy over a wider frequency range than the bandwidth measured by the EMI test equipment.
150 Citations
32 Claims
-
1. A digital frequency jittering circuit for varying the switching frequency of a power supply, comprising:
-
an oscillator for generating a signal having a switching frequency, the oscillator having a control input for varying the switching frequency;
a digital to analog converter coupled to the control input for varying the switching frequency; and
a counter coupled to the output of the oscillator and to the digital to analog converter, the counter causing the digital to analog converter to adjust the control input and to vary the switching frequency. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
first and second transistors coupled to the primary current source;
a third transistor coupled to the first transistor; and
a fourth transistor coupled to the second transistor at a junction.
-
-
4. The circuit of claim 3, further comprising a capacitor coupled to the junction.
-
5. The circuit of claim 3, further comprising one or more comparators coupled to the junction.
-
6. The circuit of claim 2, wherein the digital to analog converter has one or more secondary current sources.
-
7. The circuit of claim 6, further comprising a transistor coupled between each secondary current source and the counter.
-
8. The circuit of claim 6, wherein the primary current source generates a current I and each of the secondary current sources generates a current lower than I.
-
9. The circuit of claim 8, wherein the secondary current sources generate binary weighted currents.
-
10. The circuit of claim 8, wherein the largest secondary current source generates a current which is less than about 0.1 of I.
-
11. A method for generating a switching frequency in a power conversion system, comprising:
-
generating a primary current;
cycling one or more secondary current sources to generate a secondary current which varies over time; and
combining the secondary current with the primary current to be received at a control input of an oscillator for generating a switching frequency which is varied over time. - View Dependent Claims (12, 13, 14, 15, 16)
-
-
17. A method for generating a switching frequency in a power conversion system, comprising:
-
generating a primary voltage;
cycling one or more secondary voltage sources to generate a secondary voltage which varies over time; and
combining the secondary voltage with the primary voltage to be received at a control input of a voltage-controlled oscillator for generating a switching frequency which is varied over time. - View Dependent Claims (18, 19, 20)
-
-
21. A frequency jittering circuit for varying a power supply switching frequency, comprising:
-
an oscillator for generating a signal having a switching frequency, the oscillator having a control input for varying the switching frequency; and
means coupled to the control input for varying the switching frequency, including;
one or more current sources coupled to the control input; and
a counter coupled to the output of the oscillator and to the one or more current sources. - View Dependent Claims (22, 23, 24, 25, 26, 27, 28, 29, 30)
a primary current source coupled to the control input; and
a differential switch coupled to the primary source.
-
-
23. The circuit of claim 22 wherein the oscillator further comprises:
-
first and second transistors coupled to the primary current source;
a third transistor coupled to the first transistor; and
a fourth transistor coupled to the second transistor at a junction.
-
-
24. The circuit of claim 22 further comprising a capacitor and a comparator coupled to the junction.
-
25. The circuit of claim 22 wherein the primary current source generates a current I and each of said one or more current sources generates a current lower than I.
-
26. The circuit of claim 22 wherein the primary current source generates a current I and each of said one or more current sources generates a second current lower than the current I, further comprising a transistor coupled to each current source connected to the counter.
-
27. The circuit of claim 21 further comprising a transistor coupled to each current source and to the counter.
-
28. The circuit of claim 21 wherein the oscillator further comprises:
a primary voltage source coupled to the control input; and
a differential switch coupled to the primary voltage source.
-
29. The circuit of claim 21 wherein the means for varying the frequency further comprises:
-
a capacitor; and
a current source adapted to charge and discharge the capacitor.
-
-
30. The circuit of claim 29 further comprising:
-
one or more comparators coupled to the capacitor; and
means coupled to the capacitor for alternatingly charging and discharging the capacitor.
-
-
31. A power supply having a transformer coupled to an input voltage, the transformer having a primary winding, the power supply comprising:
-
an oscillator for generating a signal having a frequency, the oscillator having a control input for varying the frequency of the signal, the oscillator including;
a primary current source coupled to the control input;
a differential switch coupled to the primary current source;
a capacitor coupled to the differential switch; and
a comparator coupled to the differential switch;
a digital to analog converter coupled to the control input, the digital to analog converter having one or more current sources, wherein the primary current source generates a current I and each of said one or more current sources generates a current lower that I;
a counter coupled to the output of the oscillator and to the current sources of the digital to analog converter; and
a power transistor coupled to the oscillator and to one terminal of the primary winding, the power transistor modulating its output in providing a regulated power supply output.
-
-
32. A power supply having a transformer coupled to an input voltage, the transformer having a primary winding, the power supply comprising:
-
an oscillator for generating a signal having a frequency, the oscillator having a control input for varying the frequency of the signal, the oscillator including;
a primary current source coupled to the control input;
a differential switch coupled to the primary current source;
a capacitor coupled to the differential switch; and
a comparator coupled to the differential switch a circuit for varying the frequency, the circuit coupled to the control input, including;
a capacitor;
a current source adapted to charge and discharge the capacitor;
one or more comparators coupled to the capacitor and coupled to the current source for alternatingly charging and discharging the capacitor; and
a power transistor coupled to the oscillator and to one terminal of the primary winding, the power transistor modulating its output in providing a regulated power supply output.
-
Specification