A PWM modulator has a quantizer that generates a PWM output signal to speaker driver. When a first voltage swing range is supplied to the speaker driver, the quantizer analog gain is controlled to be a first gain value. When a second PWM drive voltage swing range is supplied to the speaker driver, the analog gain is controlled to be a second gain value. The first and second gain values of the analog gain of the quantizer cause the combined gain of the quantizer and driver to be approximately equal in the two modes. The quantizer has at least two gain-affecting measurable non-ideal characteristics. The quantizer is adjustable using measured first and second values to correct for first and second of the at least two non-ideal characteristics. The gain of the quantizer is calibratable while the quantizer is adjusted using the measured first and second measured values.

A PWM modulator has a quantizer that generates a PWM output signal to speaker driver. When a first voltage swing range is supplied to the speaker driver, the quantizer analog gain is controlled to be a first gain value. When a second PWM drive voltage swing range is supplied to the speaker driver, the analog gain is controlled to be a second gain value. The first and second gain values of the analog gain of the quantizer cause the combined gain of the quantizer and driver to be approximately equal in the two modes. The quantizer has at least two gain-affecting measurable non-ideal characteristics. The quantizer is adjustable using measured first and second values to correct for first and second of the at least two non-ideal characteristics. The gain of the quantizer is calibratable while the quantizer is adjusted using the measured first and second measured values.

A PWM modulator has a quantizer that generates a PWM output signal to speaker driver. When a first voltage swing range is supplied to the speaker driver, the quantizer analog gain is controlled to be a first gain value. When a second PWM drive voltage swing range is supplied to the speaker driver, the analog gain is controlled to be a second gain value. The first and second gain values of the analog gain of the quantizer cause the combined gain of the quantizer and driver to be approximately equal in the two modes. The quantizer has at least two gain-affecting measurable non-ideal characteristics. The quantizer is adjustable using measured first and second values to correct for first and second of the at least two non-ideal characteristics. The gain of the quantizer is calibratable while the quantizer is adjusted using the measured first and second measured values.

A PWM modulator has a quantizer that generates a PWM output signal to speaker driver. When a first voltage swing range is supplied to the speaker driver, the quantizer analog gain is controlled to be a first gain value. When a second PWM drive voltage swing range is supplied to the speaker driver, the analog gain is controlled to be a second gain value. The first and second gain values of the analog gain of the quantizer cause the combined gain of the quantizer and driver to be approximately equal in the two modes. The quantizer has at least two gain-affecting measurable non-ideal characteristics. The quantizer is adjustable using measured first and second values to correct for first and second of the at least two non-ideal characteristics. The gain of the quantizer is calibratable while the quantizer is adjusted using the measured first and second measured values.

A ramp generator includes an integrator including a first stage having first and second inputs and first and second outputs, and a second stage including first and second transistors coupled between a power supply rail and ground. A node between the first and second transistors is coupled to the output of the integrator amplifier. A control terminal of the first transistor is coupled to the first output of the first stage, and a control terminal of the second transistor is coupled to the second output of the first stage. A first current flows from the output to ground during a ramp event in the ramp signal generated from the output. Trimming circuitry is coupled to the output of the integrator amplifier to provide a second current to the output of the integrator amplifier in response to trimming inputs. The second current substantially matches the first current.

A ramp generator includes an integrator including a first stage having first and second inputs and first and second outputs, and a second stage including first and second transistors coupled between a power supply rail and ground. A node between the first and second transistors is coupled to the output of the integrator amplifier. A control terminal of the first transistor is coupled to the first output of the first stage, and a control terminal of the second transistor is coupled to the second output of the first stage. A first current flows from the output to ground during a ramp event in the ramp signal generated from the output. Trimming circuitry is coupled to the output of the integrator amplifier to provide a second current to the output of the integrator amplifier in response to trimming inputs. The second current substantially matches the first current.

A PWM modulator has a quantizer that generates a PWM output signal to speaker driver. When a first voltage swing range is supplied to the speaker driver, the quantizer analog gain is controlled to be a first gain value. When a second PWM drive voltage swing range is supplied to the speaker driver, the analog gain is controlled to be a second gain value. The first and second gain values of the analog gain of the quantizer cause the combined gain of the quantizer and driver to be approximately equal in the two modes. The quantizer has at least two gain-affecting measurable non-ideal characteristics. The quantizer is adjustable using measured first and second values to correct for first and second of the at least two non-ideal characteristics. The gain of the quantizer is calibratable while the quantizer is adjusted using the measured first and second measured values.

A PWM modulator has a quantizer that generates a PWM output signal to speaker driver. When a first voltage swing range is supplied to the speaker driver, the quantizer analog gain is controlled to be a first gain value. When a second PWM drive voltage swing range is supplied to the speaker driver, the analog gain is controlled to be a second gain value. The first and second gain values of the analog gain of the quantizer cause the combined gain of the quantizer and driver to be approximately equal in the two modes. The quantizer has at least two gain-affecting measurable non-ideal characteristics. The quantizer is adjustable using measured first and second values to correct for first and second of the at least two non-ideal characteristics. The gain of the quantizer is calibratable while the quantizer is adjusted using the measured first and second measured values.

A ramp generator includes an integrator including a first stage having first and second inputs and first and second outputs, and a second stage including first and second transistors coupled between a power supply rail and ground. A node between the first and second transistors is coupled to the output of the integrator amplifier. A control terminal of the first transistor is coupled to the first output of the first stage, and a control terminal of the second transistor is coupled to the second output of the first stage. A first current flows from the output to ground during a ramp event in the ramp signal generated from the output. Trimming circuitry is coupled to the output of the integrator amplifier to provide a second current to the output of the integrator amplifier in response to trimming inputs. The second current substantially matches the first current.

A ramp generator includes an integrator including a first stage having first and second inputs and first and second outputs, and a second stage including first and second transistors coupled between a power supply rail and ground. A node between the first and second transistors is coupled to the output of the integrator amplifier. A control terminal of the first transistor is coupled to the first output of the first stage, and a control terminal of the second transistor is coupled to the second output of the first stage. A first current flows from the output to ground during a ramp event in the ramp signal generated from the output. Trimming circuitry is coupled to the output of the integrator amplifier to provide a second current to the output of the integrator amplifier in response to trimming inputs. The second current substantially matches the first current.