The gain from audio input to speaker terminals is controlled by setting the amplifier’s output level and digital volume control (DVC). A separate DVC is provided for PDM (available from the PDM input pins) and PCM (available from the TDM ports pins) playback paths.

Amplifier output level settings are presented in dBV (dB relative to 1 V_rms) with a full scale digital audio input (0 dBFS) and the digital volume control set to 0 dB. It should be noted that these levels may not be achievable because of analog clipping in the amplifier, so they should be used to convey gain only. Table 8-37 below shows analog gain settings that can be programmed via the AMP_LEVEL[4:0] register bits.

0x00

0x01

0x02

0x03

0x04

0x05

0x06

0x07

0x08

0x09

0x0A

0x0B

0x0C

0x0D

0x0E

0x0F

0x10

0x11

0x12

0x13

0x14

0x15 - 0x1F

Equation 1 calculates the amplifiers output voltage.

Equation 1.

where

• V_AMP is the amplifier output voltage in dBV
• Input is the digital input amplitude in dB with respect to 0 dBFS
• A_dvc is the digital volume control setting, 0 dB to -100 dB in 0.5 dB steps
• A_AMP is the amplifier output level setting in dBV

The digital volume control (DVC) is independently configurable for PCM and PDM streams from 0 dB to -100 dB in 0.5 dB steps by setting the DVC_PCM[7:0] and PVC_PDM[7:0] register bits respectively. Settings greater than 0xC8 are interpreted as mute. When a change in digital volume control occurs, the device ramps the volume to the new setting based on the DVC_RATE[1:0] register bits. If DVC_RATE[1:0] is set to 2'b11, volume ramping is disabled. This can be used to speed up startup, shutdown and digital volume changes when volume ramping is handled by the system master.

0x00

0x01

0x02

...

0xC8

0xC9 - 0xFF

0x00

0x01

0x02

...

0xC8

0xC9 - 0xFF

00

01

10

11

The Class-D amplifier uses a closed-loop architecture, so the gain does not depend on VBAT. The approximate threshold for the onset of analog clipping is calculated in Equation 2.

Equation 2.

where

• V_{PK(max,preclip)} is the maximum peak unclipped output voltage in V
• VBAT is the power supply voltage
• R_L is the speaker load in Ω
• R_interconnect is the additional resistance in the PCB (such as cabling and filters) in Ω
• R_FET(on) is the power stage total on resistance (HS FET+LS FET+Sense Resistor+bonding+packaging) in Ω

The effective on-resistance for this device (including HS+LS FET, Sense Resistor and bonding and packaging leads) is approximately 510 mΩ at room temperature. Table 8-41 shows approximate maximum unclipped peak output voltages at room temperature (excluding interconnect resistances).