ZHCSOM5 数据表 | 德州仪器 TI.com.cn

ZHCSOM5D April 2006 – September 2021 LMH6321

PRODUCTION DATA

封装选项

请参考 PDF 数据表获取器件具体的封装图。

机械数据 (封装 | 引脚)

KTW|7
DDA|8

散热焊盘机械数据 (封装 | 引脚)

KTW|7
- PPTD278
DDA|8
- PPTD058J

订购信息

5.4 ±15 V Electrical Characteristics

The following specifications apply for Supply Voltage = ±15 V, V_CM = 0, R_L ≥ 100 kΩ and R_S = 50 Ω, C_L open, unless otherwise noted. Italicized limits apply for T_A = T_J = T_MIN to T_MAX; all other limits T_A = T_J = 25°C.

Symbol	Parameter	Conditions		Min	Typ	Max	Units
A_V	Voltage Gain	R_L = 1 kΩ, V_IN = ±10 V		0.99 0.98	0.995		V/V
A_V	Voltage Gain	R_L = 50 Ω, V_IN = ±10 V		0.86 0.84	0.92		V/V
V_OS	Input Offset Voltage	R_L = 1 kΩ, R_S = 0 V			±4	±35 ±52	mV
I_B	Input Bias Current	V_IN = 0 V, R_L = 1 kΩ, R_S = 0 V			±2	±15 ±17	μA
R._IN	Input Resistance	R._L = 50 Ω			250		kΩ
C_IN	Input Capacitance				3.5		pF
R_O	Output Resistance	I_O = ±10 mA			5		Ω
I_S	Power Supply Current	R_L = ∞, V_IN = 0			11	14.5 16.5	mA
I_S	Power Supply Current	R_L = ∞, V_IN = 0	750 µA into C_L Pin		14.9	18.5 20.5	mA
V_O1	Positive Output Swing	I_O = 300 mA, R_S = 0 V, V_IN = ±V_S		11.2 10.8	11.9		V
V_O1	Negative Output Swing	I_O = 300 mA, R_S = 0 V, V_IN = ±V_S			−11.3	−10.3 −9.8	V
V_O2	Positive Output Swing	R_L = 1 kΩ, R_S = 0 V, V_IN = ±V_S		13.1 12.9	13.4		V
V_O2	Negative Output Swing	R_L = 1 kΩ, R_S = 0 V, V_IN = ±V_S			−13.4	−12.9 −12.6	V
V_O3	Positive Output Swing	R_L = 50 Ω, R_S = 0 V, V_IN = ±V_S		11.6 11.2	12.2		V
V_O3	Negative Output Swing	R_L = 50 Ω, R_S = 0 V, V_IN = ±V_S			−11.9	−10.9 −10.6	V
V_EF	Error Flag Output Voltage	R_L = ∞, V_IN = 0, EF pulled up with 5 kΩ to +5 V	Normal		5.00		V
V_EF	Error Flag Output Voltage	R_L = ∞, V_IN = 0, EF pulled up with 5 kΩ to +5 V	During Thermal Shutdown		0.25		V
T_SH	Thermal Shutdown Temperature	Measure Quantity is Die (Junction) Temperature			168		°C
T_SH	Thermal Shutdown Temperature	Hysteresis			10		°C
I_SH	Supply Current at Thermal Shutdown	EF pulled up with 5 kΩ to +5 V			3		mA
PSSR	Power Supply Rejection Ratio	R_L = 1 kΩ, V_IN = 0 V, V_S = ±5 V to ±15 V	Positive	58 54	66		dB
PSSR	Power Supply Rejection Ratio	R_L = 1 kΩ, V_IN = 0 V, V_S = ±5 V to ±15 V	Negative	58 54	64		dB
SR	Slew Rate	V_IN = ±11 V, R_L = 1 kΩ			2900		V/μs
SR	Slew Rate	V_IN = ±11 V, R_L = 50 Ω			1800		V/μs
BW	−3 dB Bandwidth	V_IN = ±20 mV_PP, R_L = 50 Ω			110		MHz
LSBW	Large Signal Bandwidth	V_IN = 2 V_PP, R_L = 50 Ω			48		MHz
HD2	2^nd Harmonic Distortion	V_O = 2 V_PP, f = 100 kHz	R_L = 50 Ω		−59		dBc
		V_O = 2 V_PP, f = 100 kHz	R_L = 100 Ω		−70
		V_O = 2 V_PP, f = 1 MHz	R_L = 50 Ω		−57
		V_O = 2 V_PP, f = 1 MHz	R_L = 100 Ω		−68
HD3	3rd Harmonic Distortion	V_O = 2 V_PP, f = 100 kHz	R_L = 50 Ω		−59		dBc
		V_O = 2 V_PP, f = 100 kHz	R_L = 100 Ω		−70
		V_O = 2 V_PP, f = 1 MHz	R_L = 50 Ω		−62
		V_O = 2 V_PP, f = 1 MHz	R_L = 100 Ω		−73
e_n	Input Voltage Noise	f ≥ 10 kHz			2.8		nV/√ Hz
i_n	Input Current Noise	f ≥ 10 kHz			2.4		pA/√ Hz
I_SC1	Output Short Circuit Current Source ⁽¹⁾	V_O = 0 V, Program Current into C_L = 25 µA	Sourcing V_IN = +3 V	4.5 4.5	10	15.5 15.5	mA
		V_O = 0 V, Program Current into C_L = 25 µA	Sinking V_IN = −3 V	4.5 4.5	10	15.5 15.5	mA
		V_O = 0 V Program Current into C_L = 750 µA	Sourcing V_IN = +3 V	280 273	295	308 325	mA
		V_O = 0 V Program Current into C_L = 750 µA	Sinking V_IN = −3 V	280 275	295	310 325	mA
I_SC2	Output Short Circuit Current Source	R_S = 0 V, V_IN = +3 V⁽¹⁾⁽³⁾		320 300	570	750 920	mA
I_SC2	Output Short Circuit Current Sink	R_S = 0 V, V_IN = −3 V⁽¹⁾⁽³⁾		300 305	515	750 910	mA
V/I Section
CLV_OS	Current Limit Input Offset Voltage	R_L = 1 kΩ, GND = 0 V			±0.5	±4.0 ±8.0	mV
CLI_B	Current Limit Input Bias Current	R_L = 1 kΩ		−0.5 −0.8	−0.2		μA
CL CMRR	Current Limit Common Mode Rejection Ratio	R_L = 1 kΩ, GND = −13 to +14 V		60 56	69		dB

(1) V_IN = + or −4 V at T_J = −40°C.

(3) For the condition where the C_L pin is left open the output current should not be continuous, but instead, should be limited to low duty cycle pulse mode such that the RMS output current is less than or equal to 300 mA.