The TAS2563 provides a flexible TDM serial audio port. The port can be configured to support a variety of formats including stereo I²S, Left Justified and TDM. Mono audio playback is available via the SDIN pin. The SDOUT pin is used to transmit sample streams including speaker voltage and current sense, VBAT voltage, die temperature and channel gain.

The TDM serial audio port supports up to 16 32-bit time slots at 44.1/48 kHz, 8 32-bit time slots at a 88.2/96 kHz sample rate and 4 32-bit time slots at a 176.4/192 kHz sample rate. The device supports 2 time slots at 32 bits in width and 4 or 8 time slots at 16, 24 or 32 bits in width. Valid SBCLK to FSYNC ratios are 64, 96, 128, 192, 256, 384 and 512. The device will automatically detect the number of time slots and this does not need to be programmed.

By default, the TAS2563 will automatically detect the PCM playback sample rate. This can be disabled by setting the AUTO_RATE register bit high and manually configuring the device.

The SAMP_RATE[2:0] register bits set the PCM audio sample rate when AUTO_RATE is enabled. The TAS2563 employs a robust clock fault detection engine that will automatically volume ramp down the playback path if FSYNC does not match the configured sample rate (AUTO_RATE enabled) or the ratio of SBCLK to FSYNC is not supported (minimizing any audible artifacts). Once the clocks are detected to be valid in both frequency and ratio, the device will automatically volume ramp the playback path back to the configured volume and resume playback.

When using the auto rate detection the sampling rate and SBCLK to FSYNC ratio detected on the TDM bus is reported back on the read-only register FS_RATE and FS_RATIO respectively.

While the sampling rate of 192 kHz is supported, it is internally down-sampled to 96 kHz. Therefore audio content greater than 40 kHz should not be applied to prevent aliasing. This additionally affects all processing blocks like BOP and limiter which should use 96 kHz fs when accepting 192 kHz audio. It is recommend to use Section 7.3.1 to configure the device.

0

1

000

000

001

001

010

010

011

011

100

100

101

101

110

110

111

111

0x0-0x3

0x4

0x5

0x6

0x7

0x8

0x9

0xA

0xB-0xE

0xF

Figure 7-12 and Figure 7-13 below illustrates the receiver frame parameters required to configure the port for playback. A frame begins with the transition of FSYNC from either high to low or low to high (set by the FRAME_START register bit). FSYNC and SDIN are sampled by SBCLK using either the rising or falling edge (set by the RX_EDGE register bit). The RX_OFFSET[4:0] register bits define the number of SBCLK cycles from the transition of FSYNC until the beginning of time slot 0. This is typically set to a value of 0 for Left Justified format and 1 for an I²S format.

Figure 7-12 TDM RX Time Slot with Left Justification

Figure 7-13 TDM RX Time Slots

0

1

0

1

0x00

0x01

0x02

...

0x1E

0x1F

The RX_SLEN[1:0] register bits set the length of the RX time slot. The length of the audio sample word within the time slot is configured by the RX_WLEN[1:0] register bits. The RX port will left justify the audio sample within the time slot by default, but this can be changed to right justification via the RX_JUSTIFY register bit. The TAS2563 supports mono and stereo down mix playback ([L+R]/2) via the left time slot, right time slot and time slot configuration register bits (RX_SLOT_L[3:0], RX_SLOT_R[3:0] and RX_SCFG[1:0] respectively). By default the device will playback mono from the time slot equal to the I²C base address offset for playback. The RX_SCFG[1:0] register bits can be used to override the playback source to the left time slot, right time slot or stereo down mix set by the RX_SLOT_L[3:0] and RX_SLOT_R[3:0] register bits.

If time slot selections places reception either partially or fully beyond the frame boundary, the receiver will return a null sample equivalent to a digitally muted sample.

00

01

10

11

00

01

10

11

0

1

00

01

10

11

0x0

0x1

...

0xE

0xF

0x0

0x1

...

0xE

0xF

The TDM port can transmit a number sample streams on the SDOUT pin including speaker voltage sense, speaker current sense, VBAT voltage, die temperature and channel gain. Figure 7-14 below illustrates the alignment of time slots to the beginning of a frame and how a given sample stream is mapped to time slots. Either the rising or falling edge of SBCLK can be used to transmit data on the SDOUT pin, which can be configured by setting the TX_EDGE register bit. The TX_OFFSET register defines the number SBCLK cycles between the start of a frame and the beginning of time slot 0. This would typically be programmed to 0 for Left Justified format and 1 for I²S format. The TDM TX can either transmit logic 0 or Hi-Z depending on the setting of the TX_FILL register bit setting. An optional bus keeper will weakly hold the state of SDOUT when all devices driving are Hi-Z. Since only one bus keeper is required on SDOUT, this feature can be disabled via the TX_KEEPEN register bit. The bus-keeper can additionally be configured to be enabled for only 1LSB cycle or always using TX_KEEPLN and to drive the full or half cycle of the LSB using TX_KEEPCY.

Each sample stream is composed of either one or two 8-bit time slots. , so they will always utilize two TX time slots. The VBAT voltage stream is 10-bit precision, and can either be transmitted left justified in a 16-bit word (using two time slots) or can be truncated to 8-bits (the top 8 MSBs) and be transmitted in a single time slot. This is configured by setting VBAT_SLEN register bit. The Die temperature and gain are both 8-bit precision and are transmitted in a single time slot.

Figure 7-14 TDM Port TX Diagram

0

1

0x0

0x1

0x2

...

0x6

0x7

0

1

0

1

0

1

0

1

The time slot register for each sample stream defines where the MSB transmission begins. For instance, if VSNS_SLOT is set to 2, the upper 8 MSBs will be transmitted in time slot 2 and the lower 8 LSBs will be transmitted in time slot 3. Each sample stream can be individually enabled or disabled. This is useful to manage limited TDM bandwidth since it may not be necessary to transmit all streams for all devices on the bus.

It is important to ensure that time slot assignments for actively transmitted sample streams do not conflict. For instance, if VSNS_SLOT is set to 2 and ISNS_SLOT is set to 3, the lower 8 LSBs of voltage sense will conflict with the upper 8 MSBs of current sense. This will produce unpredictable transmission results in the conflicting bit slots (for example the priority is not defined).

The current and voltage values are transmitted at the full 16-bit measured values by default. The IVMON_LEN register can be used to transmit only the 8 MSB bits in one slot or 12 MSB bits values across multiple slots. The special 12-bit mode is used when only 24-bit I²S/TDM data can be processed by the host processor. The device should be configured with the voltage-sense slot and current-sense slot off by 1 slot and will consume 3 consecutive 8-bit slots. In this mode the device will transmit the first 12 MSB bits followed by the second 12 MSB bits specified by the preceding slot.

If time slot selections place transmission beyond the frame boundary, the transmitter will truncate transmission at the frame boundary.

It is recommended to keep the following slot ordering:               

ISNS_SLOT<VSNS_SLOT<VBAT_SLOT<TEMP_SLOT<GAIN_SLOT<BIL_ILIM_SLOT.

00

01

10

11

0x00

0x01

0x02

...

0x3E

0x3F

0

1

0x00

0x01

0x02

...

0x3E

0x3F

0

1

0x00

0x01

...

0x04

...

0x3E

0x3F

0

1

0

1

0x00

0x01

...

0x05

...

0x3E

0x3F

0

1

The following sample streams are part of the system. These data streams can be routed over the audio TDM bus .

0x00

0x01

...

0x06

...

0x3E

0x3F

0

1

0x00

0x01

...

0x07

...

0x3E

0x3F

0

1

Note that the boost sync function is only operational with input sample rates higher than 16 kHz.