SLASEP9 May 2019 TAS5806M
PRODUCTION DATA.
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|---|
DIGITAL I/O | ||||||
|IIH| | Input logic high current level for DVDD referenced digital input pins | VIN(DigIn) = VDVDD | 10 | µA | ||
|IIL| | Input logic low current level for DVDD referenced digital input pins | VIN(DigIn) = 0 V | –10 | µA | ||
VIH(Digin) | Input logic high threshold for DVDD referenced digital inputs | 70% | VDVDD | |||
VIL(Digin) | Input logic low threshold for DVDD referenced digital inputs | 30% | VDVDD | |||
VOH(Digin) | Output logic high voltage level | IOH = 2 mA | 80% | VDVDD | ||
VOL(Digin) | Output logic low voltage level | IOH = –2 mA | 20% | VDVDD | ||
I2C CONTROL PORT | ||||||
CL(I2C) | Allowable load capacitance for each I2C line | 400 | pF | |||
fSCL(fast) | Support SCL frequency | No wait states, fast mode | 400 | kHz | ||
fSCL(slow) | Support SCL frequency | No wait states, slow mode | 100 | kHz | ||
SERIAL AUDIO PORT | ||||||
tDLY | Required LRCLK/FS to SCLK rising edge delay | 5 | ns | |||
DSCLK | Allowable SCLK duty cycle | 40% | 60% | |||
fS | Supported input sample rates | 32 | 96 | kHz | ||
fSCLK | Supported SCLK frequencies | 32 | 64 | fS | ||
fSCLK | SCLK frequency | 24.576 | MHz | |||
SPEAKER AMPLIFIER (ALL OUTPUT CONFIGURATIONS) | ||||||
Icc | Quiescent supply current on DVDD | PDN=2V, DVDD=3.3V, Play mode | 18 | mA | ||
Icc | Quiescent supply current on DVDD | PDN=2V, DVDD=3.3V, Sleep mode | 0.75 | mA | ||
Icc | Quiescent supply current on DVDD | PDN=2V, DVDD=3.3V, Deep Sleep mode | 0.75 | mA | ||
Icc | Quiescent supply current on DVDD | PDN=0V, DVDD=3.3V, Shutdown mode | 5.5 | µA | ||
Icc | Quiescent supply current on PVDD | PDN=2V,, VPVDD=13.5V, LC filter=10uH+0.68uF, Fsw=768kHz, BD Modulation, Play mode,BTL mode | 32.5 | mA | ||
Icc | Quiescent supply current on PVDD | PDN=2V,, VPVDD=13.5V, LC filter=22uH+0.68uF, Fsw=384kHz, Hybrid Modulation, Play mode,BTL mode | 16.5 | mA | ||
Icc | Quiescent supply current on PVDD | PDN=2V, VPVDD=13.5V, Output Hiz Mode | 10.4 | mA | ||
Icc | Quiescent supply current on PVDD | PDN=2V, VPVDD=13.5V, Sleep Mode | 7.2 | mA | ||
Icc | Quiescent supply current on PVDD | PDN=2V, VPVDD=13.5V, Deep Sleep Mode | 120 | µA | ||
Icc | Quiescent supply current on PVDD | PDN=0V, VPVDD=13.5V, Shutdown Mode | 7.2 | µA | ||
toff | Turn-off Time | Excluding volume ramp | 10 | ms | ||
AV(SPK_AMP) | Programmable Gain | Value represents the "peak voltage" disregarding clipping due to lower PVDD.
Measured at 0 dB input(1FS) |
4.95 | 29.5 | V | |
ΔAV(SPK_AMP) | Amplifier gain error | Gain = 29.5 Vp/FS | 0.5 | dB | ||
fSPK_AMP | Switching frequency of the speaker amplifier | 384 | kHz | |||
768 | kHz | |||||
RDS(on) | Drain-to-source on resistance of the individual output MOSFETs | FET + Metallization | 180 | mΩ | ||
OCETHRES | Over-Current Error Threshold | OUTxx Overcurrent Error Threshold | 5 | A | ||
OVETHRES(PVDD) | PVDD over voltage error threshold | 28 | V | |||
UVETHRES(PVDD) | PVDD under voltage error threshold | 4.2 | V | |||
OTETHRES | Over temperature error threshold | 160 | °C | |||
OTEHystersis | Over temperature error hysteresis | 10 | °C | |||
OTWTHRES | Over temperature warning level | Read by register 0x73 bit3 | 135 | °C | ||
SPEAKER AMPLIFIER (STEREO BTL) | ||||||
|VOS| | Amplifier offset voltage | Measured differentially with zero input data, programmable gain configured with 29.5 Vp gain, VPVDD = 12 V, BD Mode | –6.5 | 6.5 | mV | |
PO(SPK) | Continuous Output power (per channel) | VPVDD = 21V, RSPK = 8 Ω, f = 1 kHz, THD+N = 1%, 1SPW Mode | 23 | W | ||
VPVDD = 21 V, RSPK = 8 Ω, f = 1 kHz, THD+N = 10%, 1SPW Mode | 27.5 | W | ||||
VPVDD = 18 V, RSPK = 6 Ω, f = 1 kHz, THD+N = 1%, BD Mode | 21 | W | ||||
VPVDD = 18 V, RSPK = 6 Ω, f = 1 kHz, THD+N = 10%, BD Mode | 25 | W | ||||
VPVDD = 12 V, RSPK = 6 Ω, f = 1 kHz THD+N = 1%, BD Mode | 9.9 | W | ||||
VPVDD = 12 V, RSPK = 6 Ω, f = 1 kHz THD+N = 10%, BD Mode | 12 | W | ||||
VPVDD = 13.5 V, RSPK = 6 Ω, f = 1 kHz THD+N = 1%, BD Mode | 12 | W | ||||
VPVDD = 13.5 V, RSPK = 6 Ω, f = 1 kHz THD+N = 10%, BD Mode | 15 | W | ||||
THD+NSPK | Total harmonic distortion and noise
(PO = 1 W, f = 1 KHz, RSPK = 6 Ω) |
VPVDD = 12 V, Fsw=768kHz, LC-filter, BD Mode | 0.03% | |||
VPVDD = 18 V, Fsw=768kHz, LC-filter, BD Mode | 0.03% | |||||
ICN(SPK) | Idle channel noise(A-weighted) | VPVDD = 12 V, Fsw=768kHz, LC-filter, Load=6 Ω | 37 | µVrms | ||
VPVDD = 18 V, Fsw=768kHz, LC-filter, Load=6 Ω | 38 | |||||
DR | Dynamic range | A-Weighted, -60 dBFS method. VPVDD = 24 V, SPK_GAIN = 29.5 Vp/FS | 106 | dB | ||
SNR | Signal-to-noise ratio | A-Weighted, referenced to 1% THD+N output level, VPVDD=24V | 111 | dB | ||
A-Weighted, referenced to 1% THD+N output level, VPVDD=13.5V |
107.5 | dB | ||||
PSRR | Power supply rejection ratio | Injected Noise = 1 KHz, 1 Vrms, VPVDD = 12 V, input audio signal = digital zero | 72 | dB | ||
X-talkSPK | Cross-talk (worst case between left-to-right and right-to-left coupling) | f = 1 kHz | 100 | dB | ||
SPEAKER AMPLIFIER (MONO PBTL) | ||||||
|VOS| | Amplifier offset voltage | Measured differentially with zero input data, programmable gain configured with 29.5 Vp gain, VPVDD = 12 V, BD Mode | –8 | 8 | mV | |
PO(SPK) | Continuous Output Power | VPVDD = 12 V, RSPK = 4 Ω, f = 1kHz, THD+N = 1%, BD Mode | 15.4 | W | ||
VPVDD = 12 V, RSPK = 4 Ω, f = 1kHz, THD+N = 10%, BD Mode | 18.5 | W | ||||
VPVDD = 18V, RSPK = 4 Ω, f = 1kHz, THD+N = 1%, BD Mode | 33.6 | W | ||||
VPVDD = 18 V,RSPK = 4 Ω, f = 1kHz, THD+N = 10%, BD Mode | 41 | W | ||||
THD+NSPK | Total harmonic distortion and noise
(PO = 1 W, f = 1 kHz) |
VPVDD = 12 V, 4.7uH + 0.68uF filter, RSPK = 4 Ω, BD Mode | 0.06% | |||
VPVDD = 24 V,4.7uH + 0.68uF filter, RSPK = 4 Ω, 1SPW Mode | 0.07% | |||||
DR | Dynamic range | A-Weighted, -60 dBFS method, VPVDD = 24V, SPK_GAIN = 29.5 Vp/FS | 106 | dB | ||
SNR | Signal-to-noise ratio | A-Weighted, referenced to 1% THD+N output level, VPVDD=13.5V | 107.7 | dB | ||
A-Weighted, referenced to 1% THD+N output level, VPVDD=24V | 111 | dB | ||||
PSRR | Power supply rejection ratio | Injected Noise = 1 KHz, 1 Vrms, VPVDD = 19 V, input audio signal = digital zero | 72 | dB |