SNOSA83 Data sheet

SNOSA83I August 2003 – August 2014 LMH6723 , LMH6724

PRODUCTION DATA.

Package Options

Mechanical Data (Package|Pins)

D|8
- MSOI002K
YS|0
DBV|5
- MPDS018T

Thermal pad, mechanical data (Package|Pins)

Orderable Information

6 Specifications

6.1 Absolute Maximum Ratings⁽²⁾⁽⁶⁾⁽¹⁾

over operating free-air temperature range (unless otherwise noted)

		MAX	UNIT
V_CC (V⁺ - V^-)		±6.75	V
I_OUT		120⁽⁴⁾	mA
Common Mode Input Voltage		±V_CC	V
Maximum Junction Temperature		+150	°C
Soldering Information	Infrared or Convection (20 sec)	235	°C
Soldering Information	Wave Soldering (10 sec)	260	°C

6.2 Handling Ratings

			MIN	MAX	UNIT
T_stg	Storage temperature range		−65	+150	°C
V_(ESD)	Electrostatic discharge	Human body model (HBM), per ANSI/ESDA/JEDEC JS-001, all pins⁽¹⁾⁽⁵⁾		2000	V
V_(ESD)	Electrostatic discharge	Machine Model (MM), per JEDEC specification JESD22-C101, all pins⁽⁵⁾⁽²⁾		200	V

(1) JEDEC document JEP155 states that 2000-V HBM allows safe manufacturing with a standard ESD control process.

(2) JEDEC document JEP157 states that 200-V MM allows safe manufacturing with a standard ESD control process.

6.3 Recommended Operating Conditions⁽⁴⁾

over operating free-air temperature range (unless otherwise noted)

	MIN	NOM	MAX	UNIT
Operating Temperature Range	−40		+85	°C
Nominal Supply Voltage	4.5		12	V

6.4 Thermal Information

THERMAL METRIC⁽¹⁾		SOT-23	SOIC	UNIT
		DBV	D08A
		5 PINS	8 PINS
R_θJA	Junction-to-ambient thermal resistance	230°C/W	166°C/W	°C/W

(1) For more information about traditional and new thermal metrics, see the IC Package Thermal Metrics application report, SPRA953.

6.5 ±5V Electrical Characteristics

Unless otherwise specified, A_V = +2, R_F = 1200Ω, R_L = 100Ω. Boldface limits apply at temperature extremes.⁽³⁾

PARAMETER		TEST CONDITIONS		MIN	TYP	MAX	UNIT
FREQUENCY DOMAIN RESPONSE
SSBW	−3 dB Bandwidth Small Signal	V_OUT = 0.5 V_PP			260		MHz
LSBW	−3dB Bandwidth Large Signal	V_OUT = 4.0 V_PP		90	110		MHz
LSBW	−3dB Bandwidth Large Signal	V_OUT = 4.0 V_PP		85	95		MHz
UGBW	−3 dB Bandwidth Unity Gain	V_OUT = .2 V_PP A_V = 1 V/V			370		MHz
.1dB BW	.1 dB Bandwidth	V_OUT = 0.5 V_PP			100		MHz
DG	Differential Gain	R_L = 150Ω, 4.43 MHz			0.03%
DP	Differential Phase	R_L = 150Ω, 4.43 MHz			0.11		deg
TIME DOMAIN RESPONSE
TRS	Rise and Fall Time	4V Step			2.5		ns
TSS	Settling Time to 0.05%	2V Step			30		ns
SR	Slew Rate	4V Step		500	600		V/μs
DISTORTION and NOISE RESPONSE
HD2	2^nd Harmonic Distortion	2 V_PP, 5 MHz			−65		dBc
HD3	3^rd Harmonic Distortion	2 V_PP, 5 MHz			−63		dBc
EQUIVALENT INPUT NOISE
VN	Non-Inverting Voltage Noise	>1 MHz			4.3		nV/√Hz
NICN	Inverting Current Noise	>1 MHz			6		pA/√Hz
ICN	Non-Inverting Current Noise	>1 MHz			6		pA/√Hz
STATIC, DC PERFORMANCE
V_IO	Input Offset Voltage				1	±3 ±3.7	mV
I_BN	Input Bias Current	Non-Inverting			−2	±4 ±5	µA
I_BI	Input Bias Current	Inverting			0.4	±4 ±5	µA
PSRR	Power Supply Rejection Ratio	DC, 1V Step	LMH6723	59 57	64		dB
PSRR	Power Supply Rejection Ratio	DC, 1V Step	LMH6724	59 55	64		dB
CMRR	Common Mode Rejection Ratio	DC, 1V Step	LMH6723	57 55	60		dB
CMRR	Common Mode Rejection Ratio	DC, 1V Step	LMH6724	57 53	60		dB
I_CC	Supply Current (per amplifier)	R_L = ∞			1	1.2 1.4	mA
MISCELLANEOUS PERFORMANCE
R_IN+	Input Resistance	Non-Inverting			100		kΩ
R_IN−	Input Resistance (Output Resistance of Input Buffer)	Inverting			500		Ω
C_IN	Input Capacitance	Non-Inverting			1.5		pF
R_OUT	Output Resistance	Closed Loop			0.01		Ω
V_O	Output Voltage Range	R_L = ∞	LMH6723	±4 ±3.9	±4.1		V
V_O	Output Voltage Range	R_L = ∞	LMH6724	±4 ±3.85	±4.1		V
V_OL	Output Voltage Range, High	R_L = 100Ω		3.6 3.5	3.7		V
V_OL	Output Voltage Range, Low	R_L = 100Ω		−3.25 −3.1	−3.45		V
CMVR	Input Voltage Range	Common Mode, CMRR > 50 dB		±4.0			V
I_O	Output Current	Sourcing, V_OUT= 0		95 70	110		mA
I_O	Output Current	Sinking, V_OUT= 0		−80 −70	110		mA

6.6 ±2.5V Electrical Characteristics

Unless otherwise specified, A_V = +2, R_F = 1200Ω, R_L = 100Ω. Boldface limits apply at temperature extremes.⁽³⁾

PARAMETER		TEST CONDITIONS		MIN	TYP	MAX	UNIT
FREQUENCY DOMAIN RESPONSE
SSBW	−3 dB Bandwidth Small Signal	V_OUT = 0.5 V_PP			210		MHz
LSBW	−3 dB Bandwidth Large Signal	V_OUT = 2.0 V_PP		95	125		MHz
UGBW	−3 dB Bandwidth Unity Gain	V_OUT = 0.5 V_PP, A_V = 1 V/V			290		MHz
.1dB BW	.1 dB Bandwidth	V_OUT = 0.5 V_PP			100		MHz
DG	Differential Gain	R_L = 150Ω, 4.43 MHz			.03%
DP	Differential Phase	R_L = 150Ω, 4.43 MHz			0.1		deg
TIME DOMAIN RESPONSE
TRS	Rise and Fall Time	2V Step			4		ns
SR	Slew Rate	2V Step		275	400		V/μs
DISTORTION AND NOISE RESPONSE
HD2	2^nd Harmonic Distortion	2 V_PP, 5 MHz			−67		dBc
HD3	3^rd Harmonic Distortion	2 V_PP, 5 MHz			−67		dBc
EQUIVALENT INPUT NOISE
VN	Non-Inverting Voltage	>1 MHz			4.3		nV/√Hz
NICN	Inverting Current	>1MHz			6		pA/√Hz
ICN	Non-Inverting Current	>1MHz			6		pA/√Hz
STATIC, DC PERFORMANCE
V_IO	Input Offset Voltage				−0.5	±3 ±3.4	mV
I_BN	Input Bias Current	Non-Inverting			−2.7	±4 ±5	µA
I_BI	Input Bias Current	Inverting			−0.7	±4 ±5	µA
PSRR	Power Supply Rejection Ratio	DC, 0.5V Step	LMH6723	59 57	62		dB
PSRR	Power Supply Rejection Ratio	DC, 0.5V Step	LMH6724	58 55	62		dB
CMRR	Common Mode Rejection Ratio	DC, 0.5V Step	LMH6723	57 53	59		dB
CMRR	Common Mode Rejection Ratio	DC, 0.5V Step	LMH6724	55 52	59		dB
I_CC	Supply Current (per amplifier)	R_L = ∞			0.9	1.1 1.3	mA
MISCELLANEOUS PERFORMANCE
R_IN+	Input Resistance	Non-Inverting			100		kΩ
R_IN−	Input Resistance (Output Resistance of Input Buffer)	Inverting			500		Ω
C_IN	Input Capacitance	Non-Inverting			1.5		pF
R_OUT	Output Resistance	Closed Loop			0.02		Ω
V_O	Output Voltage Range	R_L = ∞		±1.55 ±1.4	±1.65		V
V_OL	Output Voltage Range, High	R_L = 100Ω	LMH6723	1.35 1.27	1.45		V
	Output Voltage Range, High	R_L = 100Ω	LMH6724	1.35 1.26	1.45		V
	Output Voltage Range, Low	R_L = 100Ω	LMH6723	−1.25 −1.15	−1.38		V
	Output Voltage Range, Low	R_L = 100Ω	LMH6724	−1.25 −1.15	−1.38		V
CMVR	Input Voltage Range	Common Mode, CMRR > 50 dB		±1.45			V
I_O	Output Current	Sourcing		70 60	90		mA
I_O	Output Current	Sinking		−30 −30	−60		mA

(1) Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings only, which do not imply functional operation of the device at these or any other conditions beyond those indicated under Recommended Operating Conditions. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.

(2) Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is intended to be functional, but specific performance is not ensured. For ensured specifications, see the Electrical Characteristics tables.

(3) Electrical Table values apply only for factory testing conditions at the temperature indicated. Factory testing conditions result in very limited self-heating of the device such that T_J = T_A. No ensured specification of parametric performance is indicated in the electrical tables under conditions of internal self heating where T_J > T_A. See Application and Implementation for information on temperature derating of this device. Min/Max ratings are based on product characterization and simulation. Individual parameters are tested as noted.

(4) The maximum continuous output current (I_OUT) is determined by device power dissipation limitations. See Power Supply Recommendations for more details.

(5) Human Body Model, 1.5 kΩ in series with 100 pF. Machine Model, 0Ω In series with 200 pF.

(6) If Military/Aerospace specified devices are required, please contact the Texas Instruments Sales Office/Distributors for availability and specifications.