ZHCSJT8 数据表 | 德州仪器 TI.com.cn

ZHCSJT8 May 2019 TAS5806M

PRODUCTION DATA.

封装选项

机械数据 (封装 | 引脚)

DCP|38
- MPDS520B

散热焊盘机械数据 (封装 | 引脚)

DCP|38
- PPTD170A

订购信息

7.5 Electrical Characteristics

Free-air room temperature 25°C ,DVDD=3.3V,1SPW mode withe LC filter, BD mode with Ferrite bead filter (unless otherwise noted)

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
DIGITAL I/O
\|I_IH\|	Input logic high current level for DVDD referenced digital input pins	V_IN(DigIn) = V_DVDD			10	µA
\|I_IL\|	Input logic low current level for DVDD referenced digital input pins	V_IN(DigIn)= 0 V			–10	µA
V_IH(Digin)	Input logic high threshold for DVDD referenced digital inputs		70%			V_DVDD
V_IL(Digin)	Input logic low threshold for DVDD referenced digital inputs				30%	V_DVDD
V_OH(Digin)	Output logic high voltage level	I_OH = 2 mA	80%			V_DVDD
V_OL(Digin)	Output logic low voltage level	I_OH = –2 mA			20%	V_DVDD
I²C CONTROL PORT
C_L(I2C)	Allowable load capacitance for each I²C line				400	pF
f_SCL(fast)	Support SCL frequency	No wait states, fast mode			400	kHz
f_SCL(slow)	Support SCL frequency	No wait states, slow mode			100	kHz
SERIAL AUDIO PORT
t_DLY	Required LRCLK/FS to SCLK rising edge delay		5			ns
D_SCLK	Allowable SCLK duty cycle		40%		60%
f_S	Supported input sample rates		32		96	kHz
f_SCLK	Supported SCLK frequencies		32		64	f_S
f_SCLK	SCLK frequency				24.576	MHz
SPEAKER AMPLIFIER (ALL OUTPUT CONFIGURATIONS)
I_cc	Quiescent supply current on DVDD	PDN=2V, DVDD=3.3V, Play mode		18		mA
I_cc	Quiescent supply current on DVDD	PDN=2V, DVDD=3.3V, Sleep mode		0.75		mA
I_cc	Quiescent supply current on DVDD	PDN=2V, DVDD=3.3V, Deep Sleep mode		0.75		mA
I_cc	Quiescent supply current on DVDD	PDN=0V, DVDD=3.3V, Shutdown mode		5.5		µA
I_cc	Quiescent supply current on PVDD	PDN=2V,, V_PVDD=13.5V, LC filter=10uH+0.68uF, Fsw=768kHz, BD Modulation, Play mode,BTL mode		32.5		mA
I_cc	Quiescent supply current on PVDD	PDN=2V,, V_PVDD=13.5V, LC filter=22uH+0.68uF, Fsw=384kHz, Hybrid Modulation, Play mode,BTL mode		16.5		mA
I_cc	Quiescent supply current on PVDD	PDN=2V, V_PVDD=13.5V, Output Hiz Mode		10.4		mA
I_cc	Quiescent supply current on PVDD	PDN=2V, V_PVDD=13.5V, Sleep Mode		7.2		mA
I_cc	Quiescent supply current on PVDD	PDN=2V, V_PVDD=13.5V, Deep Sleep Mode		120		µA
I_cc	Quiescent supply current on PVDD	PDN=0V, V_PVDD=13.5V, Shutdown Mode		7.2		µA
t_off	Turn-off Time	Excluding volume ramp			10	ms
A_{V(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
ΔA_{V(SPK_AMP)}	Amplifier gain error	Gain = 29.5 Vp/FS		0.5		dB
f_{SPK_AMP}	Switching frequency of the speaker amplifier			384		kHz
f_{SPK_AMP}	Switching frequency of the speaker amplifier			768		kHz
R_DS(on)	Drain-to-source on resistance of the individual output MOSFETs	FET + Metallization		180		mΩ
OCE_THRES	Over-Current Error Threshold	OUTxx Overcurrent Error Threshold		5		A
OVE_THRES(PVDD)	PVDD over voltage error threshold			28		V
UVE_THRES(PVDD)	PVDD under voltage error threshold			4.2		V
OTE_THRES	Over temperature error threshold			160		°C
OTE_Hystersis	Over temperature error hysteresis			10		°C
OTW_THRES	Over temperature warning level	Read by register 0x73 bit3		135		°C
SPEAKER AMPLIFIER (STEREO BTL)
\|V_OS\|	Amplifier offset voltage	Measured differentially with zero input data, programmable gain configured with 29.5 Vp gain, V_PVDD = 12 V, BD Mode	–6.5		6.5	mV
P_O(SPK)	Continuous Output power (per channel)	V_PVDD = 21V, R_SPK = 8 Ω, f = 1 kHz, THD+N = 1%, 1SPW Mode		23		W
		V_PVDD = 21 V, R_SPK = 8 Ω, f = 1 kHz, THD+N = 10%, 1SPW Mode		27.5		W
		V_PVDD = 18 V, R_SPK = 6 Ω, f = 1 kHz, THD+N = 1%, BD Mode		21		W
		V_PVDD = 18 V, R_SPK = 6 Ω, f = 1 kHz, THD+N = 10%, BD Mode		25		W
		V_PVDD = 12 V, R_SPK = 6 Ω, f = 1 kHz THD+N = 1%, BD Mode		9.9		W
		V_PVDD = 12 V, R_SPK = 6 Ω, f = 1 kHz THD+N = 10%, BD Mode		12		W
		V_PVDD = 13.5 V, R_SPK = 6 Ω, f = 1 kHz THD+N = 1%, BD Mode		12		W
		V_PVDD = 13.5 V, R_SPK = 6 Ω, f = 1 kHz THD+N = 10%, BD Mode		15		W
THD+N_SPK	Total harmonic distortion and noise (P_O = 1 W, f = 1 KHz, R_SPK= 6 Ω)	V_PVDD = 12 V, Fsw=768kHz, LC-filter, BD Mode		0.03%
THD+N_SPK		V_PVDD = 18 V, Fsw=768kHz, LC-filter, BD Mode		0.03%
I_CN(SPK)	Idle channel noise(A-weighted)	V_PVDD = 12 V, Fsw=768kHz, LC-filter, Load=6 Ω		37		µVrms
I_CN(SPK)	Idle channel noise(A-weighted)	V_PVDD = 18 V, Fsw=768kHz, LC-filter, Load=6 Ω		38		µVrms
DR	Dynamic range	A-Weighted, -60 dBFS method. V_PVDD= 24 V, SPK_GAIN = 29.5 Vp/FS		106		dB
SNR	Signal-to-noise ratio	A-Weighted, referenced to 1% THD+N output level, V_PVDD=24V		111		dB
SNR	Signal-to-noise ratio	A-Weighted, referenced to 1% THD+N output level, V_PVDD=13.5V		107.5		dB
PSRR	Power supply rejection ratio	Injected Noise = 1 KHz, 1 V_rms, V_PVDD = 12 V, input audio signal = digital zero		72		dB
X-talk_SPK	Cross-talk (worst case between left-to-right and right-to-left coupling)	f = 1 kHz		100		dB
SPEAKER AMPLIFIER (MONO PBTL)
\|V_OS\|	Amplifier offset voltage	Measured differentially with zero input data, programmable gain configured with 29.5 Vp gain, V_PVDD = 12 V, BD Mode	–8		8	mV
P_O(SPK)	Continuous Output Power	V_PVDD = 12 V, R_SPK = 4 Ω, f = 1kHz, THD+N = 1%, BD Mode		15.4		W
		V_PVDD = 12 V, R_SPK = 4 Ω, f = 1kHz, THD+N = 10%, BD Mode		18.5		W
		V_PVDD = 18V, R_SPK = 4 Ω, f = 1kHz, THD+N = 1%, BD Mode		33.6		W
		V_PVDD = 18 V,R_SPK = 4 Ω, f = 1kHz, THD+N = 10%, BD Mode		41		W
THD+N_SPK	Total harmonic distortion and noise (P_O = 1 W, f = 1 kHz)	V_PVDD = 12 V, 4.7uH + 0.68uF filter, R_SPK= 4 Ω, BD Mode		0.06%
THD+N_SPK	Total harmonic distortion and noise (P_O = 1 W, f = 1 kHz)	V_PVDD = 24 V,4.7uH + 0.68uF filter, R_SPK= 4 Ω, 1SPW Mode		0.07%
DR	Dynamic range	A-Weighted, -60 dBFS method, V_PVDD = 24V, SPK_GAIN = 29.5 Vp/FS		106		dB
SNR	Signal-to-noise ratio	A-Weighted, referenced to 1% THD+N output level, V_PVDD=13.5V		107.7		dB
SNR	Signal-to-noise ratio	A-Weighted, referenced to 1% THD+N output level, V_PVDD=24V		111		dB
PSRR	Power supply rejection ratio	Injected Noise = 1 KHz, 1 V_rms, V_PVDD = 19 V, input audio signal = digital zero		72		dB