ZHCSGH3A 数据表 | 德州仪器 TI.com.cn

ZHCSGH3A March 2016 – July 2017 TAS5782M

PRODUCTION DATA.

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7.5 Electrical Characteristics

Free-air room temperature 25°C (unless otherwise noted) Measurements were made using TAS5782MEVM board and Audio Precision System 2722 with Analog Analyzer filter set to 40 kHz brickwall filter. The device output PWM frequency was set to 768 kHz unless otherwise noted.

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
DIGITAL I/O
\|IIH\|1	Input logic high current level for DVDD referenced digital input pins⁽²⁾	V_IN(DigIn) = V_DVDD			10	µA
\|IIL\|1	Input logic low current level for DVDD referenced digital input pins⁽²⁾	V_IN(DigIn)= 0 V			–10	µA
V_IH1	Input logic high threshold for DVDD referenced digital inputs⁽²⁾		70%			V_DVDD
V_IL1	Input logic low threshold for DVDD referenced digital inputs⁽²⁾				30%	V_DVDD
V_OH(DigOut)	Output logic high voltage level⁽²⁾	I_OH = 4 mA	80%			V_DVDD
V_OL(DigOut)	Output logic low voltage level⁽²⁾	I_OH = –4 mA			22%	V_DVDD
V_{OL(SPK_FAULT)}	Output logic low voltage level for SPK_FAULT	With 100-kΩ pullup resistor			0.8	V
GVDD_REG	GVDD regulator voltage			7		V
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
V_NH	Noise margin at High level for each connected device (including hysteresis)		0.2 × V_DD			V
MCLK AND PLL SPECIFICATIONS
D_MCLK	Allowable MCLK duty cycle		40%		60%
f_MCLK	Supported MCLK frequencies	Up to 50 MHz	128		512	f_S⁽¹⁾
f_PLL	PLL input frequency	Clock divider uses fractional divide D > 0, P = 1	6.7		20	MHz
f_PLL	PLL input frequency	Clock divider uses integer divide D = 0, P = 1	1		20	MHz
SERIAL AUDIO PORT
t_DLY	Required LRCK/FS to SCLK rising edge delay		5			ns
D_SCLK	Allowable SCLK duty cycle		40%		60%
f_S	Supported input sample rates		8		96	kHz
f_SCLK	Supported SCLK frequencies		32		64	f_S⁽¹⁾
f_SCLK	SCLK frequency	Either master mode or slave mode			24.576	MHz
SPEAKER AMPLIFIER (ALL OUTPUT CONFIGURATIONS)
A_{V(SPK_AMP)}	Speaker amplifier gain	SPK_GAIN/FREQ voltage < 3 V, see Adjustable Amplifier Gain and Switching Frequency Selection		20		dBV
A_{V(SPK_AMP)}	Speaker amplifier gain	SPK_GAIN/FREQ voltage > 3.3 V, see Adjustable Amplifier Gain and Switching Frequency Selection		26		dBV
ΔA_{V(SPK_AMP)}	Typical variation of speaker amplifier gain			±1		dBV
f_{SPK_AMP}	Switching frequency of the speaker amplifier	Switching frequency depends on voltage presented at SPK_GAIN/FREQ pin and the clocking arrangement, including the incoming sample rate, see Adjustable Amplifier Gain and Switching Frequency Selection	176.4		768	kHz
K_SVR	Power supply rejection ratio	Injected Noise = 50 Hz to 60 Hz, 200 mV_P-P, Gain = 26 dB, input audio signal = digital zero		60		dB
r_DS(on)	Drain-to-source on resistance of the individual output MOSFETs	V_PVDD = 24 V, I_{(SPK_OUT)} = 500 mA, T_J = 25°C, includes PVDD/PGND pins, leadframe, bondwires and metallization layers.		120		mΩ
r_DS(on)		V_PVDD = 24 V, I_{(SPK_OUT)} = 500 mA, T_J = 25°C		90		mΩ
OCE_THRES	SPK_OUTxx overcurrent error threshold			7.5		A
OTE_THRES	Overtemperature error threshold			165		°C
OCE_CLRTIME	Time required to clear overcurrent error after error condition is removed.			1.3		s
OTE_CLRTIME	Time required to clear overtemperature error after error condition is removed.			1.3		s
OVE_THRES(PVDD)	PVDD overvoltage error threshold			27		V
UVE_THRES(PVDD)	PVDD undervoltage error threshold			4.3		V
SPEAKER AMPLIFIER (STEREO BTL)
\|V_OS\|	Amplifier offset voltage	Measured differentially with zero input data, SPK_GAIN/FREQ pin configured for 20 dB gain, V_PVDD = 12 V		2		mV
\|V_OS\|	Amplifier offset voltage	Measured differentially with zero input data, SPK_GAIN/FREQ pin configured for 26 dB gain, V_PVDD = 24 V		5	15	mV
I_CN(SPK)	Idle channel noise	V_PVDD = 12 V, SPK_GAIN = 20 dB, R_SPK = 8 Ω, A-Weighted		49		µV_RMS
		V_PVDD = 15 V, SPK_GAIN = 20 dB, R_SPK = 8 Ω, A-Weighted		59
		V_PVDD = 19 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, A-Weighted		81
		V_PVDD = 24 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, A-Weighted		82
P_O(SPK)	Output Power (Per Channel)	V_PVDD = 12 V, SPK_GAIN = 20 dB, R_SPK = 4 Ω, THD+N = 0.1%		14		W
		V_PVDD = 12 V, SPK_GAIN = 20 dB, R_SPK = 8 Ω, THD+N = 0.1%		8
		V_PVDD = 15 V, SPK_GAIN = 26 dB, R_SPK = 4 Ω, THD+N = 0.1%		23
		V_PVDD = 15 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, THD+N = 0.1%		13
		V_PVDD = 19 V, SPK_GAIN = 26 dB, R_SPK = 4 Ω, THD+N = 0.1%		34
		V_PVDD = 19 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, THD+N = 0.1%		20
		V_PVDD = 24 V, SPK_GAIN = 26 dB, R_SPK = 4 Ω, THD+N = 0.1%		40
		V_PVDD = 24 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, THD+N = 0.1%		33
SNR	Signal-to-noise ratio (referenced to 0 dBFS input signal)	V_PVDD = 12 V, SPK_GAIN = 20 dB, R_SPK = 8 Ω, A-Weighted, –120 dBFS Input		103		dB
		V_PVDD = 15 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, A-Weighted, –120 dBFS Input		102
		V_PVDD = 19 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, A-Weighted, –120 dBFS Input		103
		V_PVDD = 24 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, A-Weighted, –120 dBFS Input		105
THD+N_SPK	Total harmonic distortion and noise	V_PVDD = 12 V, SPK_GAIN = 20 dB, R_SPK = 4 Ω, P_O = 1 W, f = 1kHz		0.021%
		V_PVDD = 12 V, SPK_GAIN = 20 dB, R_SPK = 8 Ω, P_O = 1 W, f = 1kHz		0.022%
		V_PVDD = 15 V, SPK_GAIN = 26 dB, R_SPK = 4 Ω, P_O = 1 W, f = 1kHz		0.02%
		V_PVDD = 15 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, P_O = 1 W, f = 1kHz		0.037%
		V_PVDD = 19 V, SPK_GAIN = 26 dB, R_SPK = 4 Ω, P_O = 1 W, f = 1kHz		0021%
		V_PVDD = 19 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, P_O = 1 W, f = 1kHz		0.028%
		V_PVDD = 24 V, SPK_GAIN = 26 dB, R_SPK = 4 Ω, P_O = 1 W, f = 1kHz		0.027%
		V_PVDD = 24 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, P_O = 1 W, f = 1kHz		0.038%
X-talk_SPK	Cross-talk (worst case between left-to-right and right-to-left coupling)	V_PVDD = 12 V, SPK_GAIN = 20 dB, R_SPK = 8 Ω, Input Signal 250 mVrms, 1-kHz Sine, across f(S)		–90		dB
		V_PVDD = 15 V, SPK_GAIN = 26 dBV, R_SPK = 8 Ω, Input Signal 250 mVrms, 1-kHz Sine, across f(S)		–102
		V_PVDD = 19 V, SPK_GAIN = 26 dBV, R_SPK = 8 Ω, Input Signal 250 mVrms, 1-kHz Sine, across f(S)		–93
		V_PVDD = 24 V, SPK_GAIN = 26 dBV, R_SPK = 8 Ω, Input Signal 250 mVrms, 1-kHz Sine, across f(S)		–93
SPEAKER AMPLIFIER (MONO PBTL)
\|V_OS\|	Amplifier offset voltage	Measured differentially with zero input data, SPK_GAIN/FREQ pin configured for 20 dB gain, V_PVDD= 12 V		0.7		mV
\|V_OS\|	Amplifier offset voltage	Measured differentially with zero input data, SPK_GAIN/FREQ pin configured for 26 dB gain, V_PVDD = 24 V		4		mV
I_CN	Idle channel noise	V_PVDD = 12 V, SPK_GAIN = 20 dB, R_SPK = 8 Ω, A-Weighted		48		µV_RMS
		V_PVDD = 15 V, SPK_GAIN = 20 dB, RSPK = 8 Ω, A-Weighted		49
		V_PVDD = 19 V, SPK_GAIN = 26 dB, RSPK = 8 Ω, A-Weighted		83
		V_PVDD = 24 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, A-Weighted		82
P_O	Output power (per channel)	V_PVDD = 12 V, SPK_GAIN = 20 dB, R_SPK = 2 Ω, THD+N = 0.1%, Unless otherwise noted		30		W
		V_PVDD = 12 V, SPK_GAIN = 20 dB, R_SPK = 4 Ω, THD+N = 0.1%, Unless otherwise noted		16
		V_PVDD = 12 V, SPK_GAIN = 20 dB, R_SPK = 8 Ω, THD+N = 0.1%		9
		V_PVDD = 15 V, SPK_GAIN = 26 dB, R_SPK = 2 Ω, THD+N = 0.1%, Unless otherwise noted		44
		V_PVDD = 15 V, SPK_GAIN = 26 dB, R_SPK = 4 Ω, THD+N = 0.1%, Unless otherwise noted		22
		V_PVDD = 15 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, THD+N = 0.1%		13
		V_PVDD = 19 V, SPK_GAIN = 26 dB, R_SPK = 2 Ω, THD+N = 0.1%, Unless otherwise noted		50
		V_PVDD = 19 V, SPK_GAIN = 26 dB, R_SPK = 4 Ω, THD+N = 0.1%, Unless otherwise noted		36
		V_PVDD = 19 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, THD+N = 0.1%		20
		V_PVDD = 24 V, SPK_GAIN = 26 dB, R_SPK = 2 Ω, THD+N = 0.1%, Unless otherwise noted		40
		V_PVDD = 24 V, SPK_GAIN = 26 dB, R_SPK = 4 Ω, THD+N = 0.1%, Unless otherwise noted		61
		V_PVDD = 24 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, THD+N = 0.1%		34
SNR	Signal-to-noise ratio (referenced to 0 dBFS input signal)	V_PVDD = 12 V, SPK_GAIN = 20 dB, R_SPK = 8 Ω, A-Weighted, –120 dBFS Input		105		dB
		V_PVDD = 15 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, A-Weighted, –120 dBFS Input		104
		V_PVDD = 19 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, A-Weighted, –120 dBFS Input		105
		V_PVDD = 24 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, A-Weighted, –120 dBFS Input		107
THD+N	Total harmonic distortion and noise	V_PVDD = 12 V, SPK_GAIN = 20 dB, R_SPK = 2 Ω, P_O = 1 W, f = 1kHz		0.014%
		V_PVDD = 12 V, SPK_GAIN = 20 dB, R_SPK = 4 Ω, P_O = 1 W, f = 1kHz		0.011%
		V_PVDD = 12 V, SPK_GAIN = 20 dB, R_SPK = 8 Ω, P_O = 1 W, f = 1kHz		0.014%
		V_PVDD = 15 V, SPK_GAIN = 26 dB, R_SPK = 2 Ω, P_O = 1 W, f = 1kHz		0.015%
		V_PVDD = 15 V, SPK_GAIN = 26 dB, R_SPK = 4 Ω, P_O = 1 W, f = 1kHz		0.013%
		V_PVDD = 15 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, P_O = 1 W, f = 1kHz		0.015%
		V_PVDD = 19 V, SPK_GAIN = 26 dB, R_SPK = 2 Ω, P_O = 1 W, f = 1kHz		0.018%
		V, R_SPK = 4 Ω, P_O = 1 W, f = 1kHz		0.012%
		V_PVDD = 19 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, P_O = 1 W, f = 1kHz		0.020%
		V_PVDD = 24 V, SPK_GAIN = 26 dB, R_SPK = 2 Ω, P_O = 1 W, f = 1kHz		0.028%
		V_PVDD = 24 V, SPK_GAIN = 26 dB, R_SPK = 4 Ω, P_O = 1 W, f = 1kHz		0.02%
		V_PVDD = 24 V, SPK_GAIN = 26 dB, R_SPK = 8 Ω, P_O = 1 W, f = 1kHz		0.027%

(1) A unit of f_S indicates that the specification is the value listed in the table multiplied by the sample rate of the audio used in the TAS5782M device.

(2) DVDD referenced digital pins include: ADR0, ADR1, GPIO0, GPIO2, LRCK/FS, MCLK,RESET, SCL, SCLK, SDA, SDIN, and SPK_MUTE.

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7.5 Electrical Characteristics