TEXAS INSTRUMENTS TLC070, TLC071, TLC072, TLC073, TLC074 Technical data

TLC070AIDR		TLC070, TLC071, TLC072, TLC073, TLC074, TLC075, TLC07xA
		FAMILY OF WIDE BANDWIDTH HIGH OUTPUT DRIVE SINGLE SUPPLY
		OPERATIONAL AMPLIFIERS
		SLOS219D − JUNE 1999 − REVISED FEBRUARY 2004

DWide Bandwidth . . . 10 MHz

DHigh Output Drive

−I OH . . . 57 mA at VDD − 1.5 V

−I OL . . . 55 mA at 0.5 V

DHigh Slew Rate

−SR+ . . . 16 V/ s

−SR− . . . 19 V/ s

DWide Supply Range . . . 4.5 V to 16 V

DSupply Current . . . 1.9 mA/Channel

DUltralow Power Shutdown Mode

IDD . . . 125 A/Channel

DLow Input Noise Voltage . . . 7 nV√Hz

DInput Offset Voltage . . . 60 V

DUltra-Small Packages

− 8 or 10 Pin MSOP (TLC070/1/2/3)

Operational Amplifier

−

+

description

The first members of TI’s new BiMOS general-purpose operational amplifier family are the TLC07x. The BiMOS family concept is simple: provide an upgrade path for BiFET users who are moving away from dual-supply to single-supply systems and demand higher ac and dc performance. With performance rated from 4.5 V to 16 V across commercial (0°C to 70°C) and an extended industrial temperature range (−40 °C to 125°C), BiMOS suits a wide range of audio, automotive, industrial and instrumentation applications. Familiar features like offset nulling pins, and new features like MSOP PowerPAD packages and shutdown modes, enable higher levels of performance in a variety of applications.

Developed in TI’s patented LBC3 BiCMOS process, the new BiMOS amplifiers combine a very high input impedance low-noise CMOS front end with a high-drive bipolar output stage, thus providing the optimum performance features of both. AC performance improvements over the TL07x BiFET predecessors include a bandwidth of 10 MHz (an increase of 300%) and voltage noise of 7 nV/√Hz (an improvement of 60%). DC improvements include a factor of 4 reduction in input offset voltage down to 1.5 mV (maximum) in the standard grade, and a power supply rejection improvement of greater than 40 dB to 130 dB. Added to this list of impressive features is the ability to drive ±50-mA loads comfortably from an ultrasmall-footprint MSOP PowerPAD package, which positions the TLC07x as the ideal high-performance general-purpose operational amplifier family.

FAMILY PACKAGE TABLE

	DEVICE	NO. OF		PACKAGE TYPES			SHUTDOWN	UNIVERSAL
		CHANNELS	MSOP	PDIP	SOIC	TSSOP		EVM BOARD
	TLC070	1	8	8	8	—	Yes
	TLC071	1	8	8	8	—
								Refer to the EVM
	TLC072	2	8	8	8	—	—
								Selection Guide
	TLC073	2	10	14	14	—	Yes
								(Lit# SLOU060)
	TLC074	4	—	14	14	20	—
	TLC075	4	—	16	16	20	Yes

Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.

PowerPAD is a trademark of Texas Instruments.

PRODUCTION DATA information is current as of publication date.		Copyright 2000−2004, T exas Instruments Incorporated
Products conform to specifications per the terms of Texas Instruments
standard warranty. Production processing does not necessarily include
testing of all parameters.
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TLC070, TLC071, TLC072, TLC073, TLC074, TLC075, TLC07xA FAMILY OF WIDE BANDWIDTH HIGH OUTPUT DRIVE SINGLE SUPPLY OPERATIONAL AMPLIFIERS

SLOS219D − JUNE 1999 − REVISED FEBRUARY 2004

TLC070 and TLC071 AVAILABLE OPTIONS

			PACKAGED DEVICES
	TA
		SMALL OUTLINE	SMALL OUTLINE	SYMBOL	PLASTIC DIP
		(D)†	(DGN)†		(P)
	0°C to 70°C	TLC070CD	TLC070CDGN	xxTIACS	TLC070CP
		TLC071CD	TLC071CDGN	xxTIACU	TLC071CP
		TLC070ID	TLC070IDGN	xxTIACT	TLC070IP
	−40 °C to 125°C	TLC071ID	TLC071IDGN	xxTIACV	TLC071IP
		TLC070AID	—	—	TLC070AIP
		TLC071AID	—	—	TLC071AIP

†This package is available taped and reeled. To order this packaging option, add an R suffix to the part number (e.g., TLC070CDR).

TLC072 and TLC073 AVAILABLE OPTIONS

			PACKAGED DEVICES
TA	SMALL		MSOP				PLASTIC	PLASTIC
	OUTLINE						DIP	DIP
	(D)†	(DGN)†	SYMBOL‡	(DGQ)†		SYMBOL‡	(N)	(P)
0°C to 70°C	TLC072CD	TLC072CDGN	xxTIADV	—		—	—	TLC072CP
	TLC073CD	—	—	TLC073CDGQ		xxTIADX	TLC073CN	—
	TLC072ID	TLC072IDGN	xxTIADW	—		—	—	TLC072IP
−40 °C to 125°C	TLC073ID	—	—	TLC073IDGQ		xxTIADY	TLC073IN	—
	TLC072AID	—	—	—		—	—	TLC072AIP
	TLC073AID	—	—	—		—	TLC073AIN	—

†This package is available taped and reeled. To order this packaging option, add an R suffix to the part number (e.g., TLC072CDR).

‡ xx represents the device date code.

TLC074 and TLC075 AVAILABLE OPTIONS

		PACKAGED DEVICES
TA
	SMALL OUTLINE		PLASTIC DIP	TSSOP
	(D)†		(N)	(PWP)†
0°C to 70°C	TLC074CD		TLC074CN	TLC074CPWP
	TLC075CD		TLC075CN	TLC075CPWP
	TLC074ID		TLC074IN	TLC074IPWP
−40 °C to 125°C	TLC075ID		TLC075IN	TLC075IPWP
	TLC074AID		TLC074AIN	TLC074AIPWP
	TLC075AID		TLC075AIN	TLC075AIPWP

†This package is available taped and reeled. To order this packaging option, add an R suffix to the part number (e.g., TLC074CDR).

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TLC070, TLC071, TLC072, TLC073, TLC074, TLC075, TLC07xA FAMILY OF WIDE BANDWIDTH HIGH OUTPUT DRIVE SINGLE SUPPLY OPERATIONAL AMPLIFIERS

SLOS219D − JUNE 1999 − REVISED FEBRUARY 2004

TLC07x PACKAGE PINOUTS

			TLC070																TLC071																TLC072
D, DGN OR P PACKAGE																D, DGN OR P PACKAGE																D, DGN, OR P PACKAGE
			(TOP VIEW)																(TOP VIEW)																(TOP VIEW)
NULL																NULL															NC	1OUT													VDD
			1						8						SHDN				1							8									1			8
IN −			2							7					VDD	IN −			2								7				VDD	1IN −			2							7			2OUT
IN +			3								6				OUT	IN +			3									6			OUT	1IN +			3							6			2IN −
GND			4						5						NULL	GND			4							5					NULL	GND			4							5			2IN+

						TLC073																TLC073
				DGQ PACKAGE															D OR N PACKAGE
					(TOP VIEW)																(TOP VIEW)
	1OUT														VDD
					1			10									1OUT				1				14								VDD
	1IN −				2						9				2OUT		1IN −
	1IN+				3						8				2IN −						2								13				2OUT
																	1IN+				3								12				2IN −
	GND				4						7				2IN+		GND				4								11				2IN+
1SHDN					5	6									2SHDN		NC				5	10											NC
																	1SHDN				6	9											2SHDN
																	NC				7	8											NC

TLC074

D OR N PACKAGE

(TOP VIEW)

1OUT			1									14			4OUT
1IN −			2									13			4IN −
1IN+			3									12			4IN+
VDD			4				11								GND
2IN+			5									10			3IN+
2IN −			6									9			3IN −
2OUT			7									8			3OUT

TLC074	TLC075	TLC075
PWP PACKAGE	D OR N PACKAGE	PWP PACKAGE
(TOP VIEW)	(TOP VIEW)	(TOP VIEW)

1OUT			1										20			4OUT
1IN−			2										19			4IN−
1IN+			3										18			4IN+
VDD			4				17									GND
2IN+			5										16			3IN+
2IN−			6										15			3IN−
2OUT			7										14			3OUT
NC			8				13									NC
NC			9				12									NC
NC			10				11									NC

NC − No internal connection

1OUT				1						16				4OUT
1IN −				2						15				4IN −
1IN+				3						14				4IN+
VDD				4					13					GND
2IN+				5						12				3IN +
2IN −				6						11				3IN−
2OUT				7						10				3OUT
1/2SHDN				8					9					3/4SHDN

TYPICAL PIN 1 INDICATORS

1OUT				1												20				4OUT
1IN−				2												19				4IN−
1IN+				3												18				4IN+
VDD				4					17											GND
2IN+				5												16				3IN+
2IN−				6												15				3IN−
2OUT				7												14				3OUT
				8					13
1/2SHDN																				3/4SHDN
NC				9					12											NC
NC				10					11											NC

Pin 1

Pin 1

Pin 1

Printed or

Pin 1

Molded Dot

Stripe

Bevel Edges

Molded ”U” Shape

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SLOS219D − JUNE 1999 − REVISED FEBRUARY 2004

absolute maximum ratings over operating free-air temperature range (unless otherwise noted)†

Supply voltage, VDD (see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .	. . . . . . . . . . . . . . . . . . . . . 17 V
Differential input voltage range, VID . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .	. . . . . . . . . . . . . . . . . . . ± VDD
Continuous total power dissipation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .	See Dissipation Rating Table
Operating free-air temperature range, TA: C suffix . . . . . . . . . . . . . . . . . . . . . . . .	. . . . . . . . . . . . . . 0°C to 70°C
I suffix . . . . . . . . . . . . . . . . . . . . . . . . .	. . . . . . . . . . . −40 °C to 125°C
Maximum junction temperature, TJ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .	. . . . . . . . . . . . . . . . . . . 150°C
Storage temperature range, Tstg . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .	. . . . . . . . . . . −65 °C to 150°C
Lead temperature 1,6 mm (1/16 inch) from case for 10 seconds . . . . . . . . . . . .	. . . . . . . . . . . . . . . . . . . 260°C

†Stresses beyond those listed under “absolute maximum ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated under “recommended operating conditions” is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.

NOTE 1: All voltage values, except differential voltages, are with respect to GND .

		DISSIPATION RATING TABLE
	PACKAGE	θJC	θJA	TA ≤ 25°C
		(°C/W)	(°C/W)	POWER RATING
	D (8)	38.3	176	710 mW
	D (14)	26.9	122.3	1022 mW
	D (16)	25.7	114.7	1090 mW
	DGN (8)	4.7	52.7	2.37 W
	DGQ (10)	4.7	52.3	2.39 W
	N (14, 16)	32	78	1600 mW
	P (8)	41	104	1200 mW
	PWP (20)	1.40	26.1	4.79 W

recommended operating conditions

			MIN	MAX	UNIT
	Supply voltage, VDD	Single supply	4.5	16	V
		Split supply	±2.25	±8
	Common-mode input voltage, VICR		+0.5	VDD−0.8	V
	Shutdown on/off voltage level‡	VIH	2		V
		VOL		0.8
	Operating free-air temperature, TA	C-suffix	0	70	°C
		I-suffix	−40	125

‡ Relative to the voltage on the GND terminal of the device.

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SLOS219D − JUNE 1999 − REVISED FEBRUARY 2004

electrical characteristics at specified free-air temperature, VDD = 5 V (unless otherwise noted)

	PARAMETER	TEST CONDITIONS		T †	MIN	TYP	MAX	UNIT
				A
			TLC070/1/2/3,	25°C		390	1900
VIO	Input offset voltage	VDD = 5 V,	TLC074/5	Full range			3000	µV
				25°C		390	1400
		VIC = 2.5 V,	TLC070/1/2/3A,
		VO = 2.5 V,	TLC074/5A	Full range			2000
		RS = 50 Ω
αVIO	Temperature coefficient of input					1.2		µV/°C
	offset voltage
				25°C		0.7	50
IIO	Input offset current	VDD = 5 V,	TLC07XC	Full range			100	pA
			TLC07XI				700
		VIC = 2.5 V,
		VO = 2.5 V,		25°C		1.5	50
		RS = 50 Ω
IIB	Input bias current		TLC07XC	Full range			100	pA
			TLC07XI				700
					0.5
				25°C	to
VICR	Common-mode input voltage	RS = 50 Ω			4.2			V
					0.5
				Full range	to
					4.2
			IOH = − 1 mA	25°C	4.1	4.3
				Full range	3.9
			IOH = − 20 mA	25°C	3.7	4
				Full range	3.5
VOH	High-level output voltage	VIC = 2.5 V						V
			IOH = − 35 mA	25°C	3.4	3.8
				Full range	3.2
				25°C	3.2	3.6
			IOH = − 50 mA
				−40 °C to	3
				85°C
			IOL = 1 mA	25°C		0.18	0.25
				Full range			0.35
			IOL = 20 mA	25°C		0.35	0.39
				Full range			0.45
VOL	Low-level output voltage	VIC = 2.5 V						V
			IOL = 35 mA	25°C		0.43	0.55
				Full range			0.7
				25°C		0.48	0.63
			IOL = 50 mA	−40 °C to			0.7
				85°C
IOS	Short-circuit output current	Sourcing		25°C		100		mA
		Sinking		25°C		100
IO	Output current	VOH = 1.5 V from positive rail		25°C		57		mA
		VOL = 0.5 V from negative rail		25°C		55

†Full range is 0°C to 70°C for C suffix and − 40 °C to 125°C for I suffix. If not specified, full range is − 40 °C to 125°C.

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SLOS219D − JUNE 1999 − REVISED FEBRUARY 2004

electrical characteristics at specified free-air temperature, VDD = 5 V (unless otherwise noted) (continued)

	PARAMETER			TEST CONDITIONS		T †	MIN	TYP	MAX	UNIT
						A
AVD	Large-signal differential voltage		VO(PP) = 3 V,		RL = 10 kΩ	25°C	100	120		dB
	amplification					Full range	100
ri(d)	Differential input resistance					25°C		1000		GΩ
CIC	Common-mode input		f = 10 kHz			25°C		22.9		pF
	capacitance
zo	Closed-loop output impedance		f = 10 kHz,		AV = 10	25°C		0.25		Ω
CMRR	Common-mode rejection ratio		VIC = 1 to 3 V,		RS = 50 Ω	25°C	80	95		dB
						Full range	80
kSVR	Supply voltage rejection ratio		VDD = 4.5 V to 16 V,		VIC = VDD /2,	25°C	80	100		dB
	(∆VDD /∆VIO)		No load			Full range	80
IDD	Supply current (per channel)		VO = 2.5 V,		No load	25°C		1.9	2.5	mA
						Full range			3.5
	Supply current in shutdown					25°C		125	200	µA
IDD(SHDN)	mode (per channel)		SHDN	≤ 0.8 V
						Full range			250
	(TLC070, TLC073, TLC075)

†Full range is 0°C to 70°C for C suffix and − 40 °C to 125°C for I suffix. If not specified, full range is − 40 °C to 125°C.

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SLOS219D − JUNE 1999 − REVISED FEBRUARY 2004

operating characteristics at specified free-air temperature, VDD = 5 V (unless otherwise noted)

PARAMETER

TEST CONDITIONS

T †

MIN

TYP

MAX

UNIT

A

SR+

Positive slew rate at unity gain

VO(PP) = 0.8 V,

CL = 50 pF,

25°C

10

16

V/µs

RL = 10 kΩ

Full range

9.5

SR−

Negative slew rate at unity gain

VO(PP) = 0.8 V,

CL = 50 pF,

25°C

12.5

19

V/µs

RL = 10 kΩ

Full range

10

Vn

Equivalent input noise voltage

f = 100 Hz

25°C

12

nV/√

Hz

f = 1 kHz

25°C

7

25°C

In

Equivalent input noise current

f = 1 kHz

0.6

fA /√

Hz

VO(PP) = 3 V,

AV = 1

0.002%

THD + N

Total harmonic distortion plus noise

RL = 10 kΩ and 250 Ω,

AV = 10

25°C

0.012%

f = 1 kHz

AV = 100

0.085%

t

Amplifier turnon time‡

25°C

0.15

µs

(on)

RL = 10 kΩ

t

Amplifier turnoff time‡

25°C

1.3

µs

(off)

Gain-bandwidth product

f = 10 kHz,

RL = 10 kΩ

25°C

10

MHz

V(STEP)PP = 1 V,

0.1%

0.18

AV = −1,

CL = 10 pF,

0.01%

0.39

RL = 10 kΩ

ts

Settling time

25°C

µs

V(STEP)PP = 1 V,

0.1%

0.18

AV = −1,

CL = 47 pF,

0.01%

0.39

RL = 10 kΩ

φm

Phase margin

RL = 10 kΩ,

CL = 50 pF

25°C

32°

RL = 10 kΩ,

CL = 0 pF

40°

Gain margin

RL = 10 kΩ,

CL = 50 pF

25°C

2.2

dB

RL = 10 kΩ,

CL = 0 pF

3.3

†Full range is 0°C to 70°C for C suffix and − 40 °C to 125°C for I suffix. If not specified, full range is − 40 °C to 125°C.

‡Disable time and enable time are defined as the interval between application of the logic signal to SHDN and the point at which the supply current has reached half its final value.

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SLOS219D − JUNE 1999 − REVISED FEBRUARY 2004

electrical characteristics at specified free-air temperature, VDD = 12 V (unless otherwise noted)

	PARAMETER	TEST CONDITIONS		T †	MIN	TYP	MAX	UNIT
				A
			TLC070/1/2/3,	25°C		390	1900
VIO	Input offset voltage	VDD = 12 V	TLC074/5	Full range			3000	µV
				25°C		390	1400
		VIC = 6 V,	TLC070/1/2/3A,
		VO = 6 V,	TLC074/5A	Full range			2000
		RS = 50 Ω
αVIO	Temperature coefficient of input					1.2		µV/°C
	offset voltage
				25°C		0.7	50
IIO	Input offset current	VDD = 12 V	TLC07xC	Full range			100	pA
			TLC07xI				700
		VIC = 6 V,
		VO = 6 V,		25°C		1.5	50
		RS = 50 Ω
IIB	Input bias current		TLC07xC	Full range			100	pA
			TLC07xI				700
					0.5
				25°C	to
VICR	Common-mode input voltage	RS = 50 Ω			11.2			V
					0.5
				Full range	to
					11.2
			IOH = − 1 mA	25°C	11.1	11.2
				Full range	11
			IOH = − 20 mA	25°C	10.8	10.9
				Full range	10.7
VOH	High-level output voltage	VIC = 6 V						V
			IOH = − 35 mA	25°C	10.6	10.7
				Full range	10.3
				25°C	10.4	10.5
			IOH = − 50 mA
				−40 °C to	10.3
				85°C
			IOL = 1 mA	25°C		0.17	0.25
				Full range			0.35
			IOL = 20 mA	25°C		0.35	0.45
				Full range			0.5
VOL	Low-level output voltage	VIC = 6 V						V
			IOL = 35 mA	25°C		0.4	0.52
				Full range			0.6
				25°C		0.45	0.6
			IOL = 50 mA	−40 °C to			0.65
				85°C
IOS	Short-circuit output current	Sourcing		25°C		150		mA
		Sinking		25°C		150
IO	Output current	VOH = 1.5 V from positive rail		25°C		57		mA
		VOL = 0.5 V from negative rail		25°C		55

†Full range is 0°C to 70°C for C suffix and − 40 °C to 125°C for I suffix. If not specified, full range is − 40 °C to 125°C.

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SLOS219D − JUNE 1999 − REVISED FEBRUARY 2004

electrical characteristics at specified free-air temperature, VDD = 12 V (unless otherwise noted) (continued)

	PARAMETER			TEST CONDITIONS		T †	MIN	TYP	MAX	UNIT
						A
AVD	Large-signal differential voltage		VO(PP) = 8 V,		RL = 10 kΩ	25°C	120	140		dB
	amplification					Full range	120
ri(d)	Differential input resistance					25°C		1000		GΩ
CIC	Common-mode input		f = 10 kHz			25°C		21.6		pF
	capacitance
zo	Closed-loop output impedance		f = 10 kHz,		AV = 10	25°C		0.25		Ω
CMRR	Common-mode rejection ratio		VIC = 1 to 10 V,		RS = 50 Ω	25°C	80	100		dB
						Full range	80
kSVR	Supply voltage rejection ratio		VDD = 4.5 V to 16 V,		VIC = VDD /2,	25°C	80	100		dB
	(∆VDD /∆VIO)		No load			Full range	80
IDD	Supply current (per channel)		VO = 7.5 V,		No load	25°C		2.1	2.9	mA
						Full range			3.5
	Supply current in shutdown					25°C		125	200	µA
IDD(SHDN)	mode (TLC070, TLC073,		SHDN	≤ 0.8 V
						Full range			250
	TLC075) (per channel)

†Full range is 0°C to 70°C for C suffix and − 40 °C to 125°C for I suffix. If not specified, full range is − 40 °C to 125°C.

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operating characteristics at specified free-air temperature, VDD = 12 V (unless otherwise noted)

PARAMETER

TEST CONDITIONS

T †

MIN

TYP

MAX

UNIT

A

SR+

Positive slew rate at unity gain

VO(PP) = 2 V,

CL = 50 pF,

25°C

10

16

V/µs

RL = 10 kΩ

Full range

9.5

SR−

Negative slew rate at unity gain

VO(PP) = 2 V,

CL = 50 pF,

25°C

12.5

19

V/µs

RL = 10 kΩ

Full range

10

Vn

Equivalent input noise voltage

f = 100 Hz

25°C

12

nV/√

Hz

f = 1 kHz

25°C

7

25°C

In

Equivalent input noise current

f = 1 kHz

0.6

fA /√

Hz

VO(PP) = 8 V,

AV = 1

0.002%

THD + N

Total harmonic distortion plus noise

RL = 10 kΩ and 250 Ω,

AV = 10

25°C

0.005%

f = 1 kHz

AV = 100

0.022%

t

Amplifier turnon time‡

25°C

0.47

µs

(on)

RL = 10 kΩ

t

Amplifier turnoff time‡

25°C

2.5

µs

(off)

Gain-bandwidth product

f = 10 kHz,

RL = 10 kΩ

25°C

10

MHz

V(STEP)PP = 1 V,

0.1%

0.17

AV = −1,

CL = 10 pF,

0.01%

0.22

RL = 10 kΩ

ts

Settling time

25°C

µs

V(STEP)PP = 1 V,

0.1%

0.17

AV = −1,

CL = 47 pF,

0.01%

0.29

RL = 10 kΩ

φm

Phase margin

RL = 10 kΩ,

CL = 50 pF

25°C

37°

RL = 10 kΩ,

CL = 0 pF

42°

Gain margin

RL = 10 kΩ,

CL = 50 pF

25°C

3.1

dB

RL = 10 kΩ,

CL = 0 pF

4

†Full range is 0°C to 70°C for C suffix and − 40 °C to 125°C for I suffix. If not specified, full range is − 40 °C to 125°C.

‡Disable time and enable time are defined as the interval between application of the logic signal to SHDN and the point at which the supply current has reached half its final value.

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TYPICAL CHARACTERISTICS

Table of Graphs

				FIGURE
	VIO	Input offset voltage	vs Common-mode input voltage	1,	2
	IIO	Input offset current	vs Free-air temperature	3,	4
	IIB	Input bias current	vs Free-air temperature	3,	4
	VOH	High-level output voltage	vs High-level output current	5,	7
	VOL	Low-level output voltage	vs Low-level output current	6,	8
	Zo	Output impedance	vs Frequency	9
	IDD	Supply current	vs Supply voltage	10
	PSRR	Power supply rejection ratio	vs Frequency	11
	CMRR	Common-mode rejection ratio	vs Frequency	12
	Vn	Equivalent input noise voltage	vs Frequency	13
	VO(PP)	Peak-to-peak output voltage	vs Frequency	14,	15
		Crosstalk	vs Frequency	16
		Differential voltage gain	vs Frequency	17,	18
		Phase	vs Frequency	17,	18
	φm	Phase margin	vs Load capacitance	19,	20
		Gain margin	vs Load capacitance	21,	22
		Gain-bandwidth product	vs Supply voltage	23
	SR	Slew rate	vs Supply voltage	24
			vs Free-air temperature	25,	26
	THD + N	Total harmonic distortion plus noise	vs Frequency	27,	28
			vs Peak-to-peak output voltage	29,	30
		Large-signal follower pulse response		31,	32
		Small-signal follower pulse response		33
		Large-signal inverting pulse response		34,	35
		Small-signal inverting pulse response		36
		Shutdown forward isolation	vs Frequency	37,	38
		Shutdown reverse isolation	vs Frequency	39,	40
		Shutdown supply current	vs Supply voltage	41
			vs Free-air temperature	42
		Shutdown pulse		43,	44

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TYPICAL CHARACTERISTICS

INPUT BIAS CURRENT AND

INPUT OFFSET VOLTAGE

INPUT OFFSET VOLTAGE

INPUT OFFSET CURRENT

vs

vs

vs

COMMON-MODE INPUT VOLTAGE

COMMON-MODE INPUT VOLTAGE

− pA

FREE-AIR TEMPERATURE

250

0

20

Current

225

−25

VDD = 12 V

VDD = 5 V

TA = 25° C

0

IIO

µV

200

TA = 25° C

µV

−50

− Input Offset Voltage −

175

−Input Offset Voltage −

−75

Bias and Input Offset

−20

150

−100

125

−125

−40

100

−150

−60

75

−175

50

−200

−80

IIB

IO

25

IO

−225

− Input

VDD = 5V

V

V

−100

0

−250

IO

−25

−275

/ I

−120

IB

0.0

0.5 1.0 1.5

2.0 2.5 3.0 3.5 4.0

4.5

5.0

0

1 2 3 4 5 6 7

8 9 10 11

12

−55 −40

−25 −10 5 20 35 50

65 80

95 110 125

I

VICR − Common-Mode Input Voltage − V

VICR − Common-Mode Input Voltage − V

TA − Free−Air Temperature −

°C

Figure 1

Figure 2

Figure 3

	INPUT BIAS CURRENT AND
		INPUT OFFSET CURRENT
pA						vs
	FREE-AIR TEMPERATURE
−	20									5.0
Bias and Input Offset Current
	0								IIO	4.5
	−20
	−40									4.0
	−60
	−80									3.5
	−100								IIB	3.0
	−120								VoltageOutputLevelHigh− V-−
Input−	−140	VDD = 12 V							OH	2.5
IO									V
/ I	−160									2.0
IB			−10	5
	−55 −40	−25			20	35	50	65 80	95 110 125
I
		TA − Free-Air Temperature −							°C

Figure 4

HIGH-LEVEL OUTPUT VOLTAGE vs

HIGH-LEVEL OUTPUT CURRENT

	VDD = 5 V									V
										−
				TA = 70°C			TA = 25°C			Output Voltage
	TA = −40 °C
					TA = 125°C					Low-Level
										−
										OL
										V
0	5	10	15	20	25	30	35	40	45	50

IOH - High-Level Output Current - mA

Figure 5

LOW-LEVEL OUTPUT VOLTAGE vs

LOW-LEVEL OUTPUT CURRENT

1.0
0.9	VDD = 5 V
0.8
0.7
0.6						TA = 125°C
0.5				TA = 70°C
		TA = 25°C
0.4
0.3							TA = −40 °C
0.2
0.1
0.0
0	5	10	15	20	25	30	35	40	45	50

IOL - Low-Level Output Current - mA

Figure 6

HIGH-LEVEL OUTPUT VOLTAGE vs

HIGH-LEVEL OUTPUT CURRENT

	12.0
− V	11.5		TA = 125°C								V
− High-Level Output Voltage							°				Low-Level Output Voltage −
					TA = 70 C
	11.0
	10.5					TA = −40 °C
	10.0			TA = 25°C
	9.5										−
OH											OL
		VDD = 12 V
V											V
	9.0
	0	5	10	15	20	25	30	35	40	45	50

IOH - High-Level Output Current - mA

Figure 7

LOW-LEVEL OUTPUT VOLTAGE	OUTPUT IMPEDANCE
vs	vs
LOW-LEVEL OUTPUT CURRENT	FREQUENCY

	1.0											1000
	0.9												VDD = 5 V and 12 V
	0.8										Ω	100	TA = 25°C
						TA = 125°C
											−
	0.7										Impedance
	0.6				TA = 70°C							10
	0.5	TA = 25°C											AV = 100
	0.4										Output	1
	0.3							TA = −40 °C					AV = 1
											−
	0.2										o
												0.10	AV = 10
											Z
	0.1	VDD = 12 V
	0.0
												0.01
	0	5	10	15	20	25	30	35	40	45	50
												100	1k	10k	100k	1M	10M
		IOL - Low-Level Output Current - mA												f - Frequency - Hz
					Figure 8									Figure 9

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SLOS219D − JUNE 1999 − REVISED FEBRUARY 2004

TYPICAL CHARACTERISTICS

SUPPLY CURRENT

POWER SUPPLY REJECTION RATIO

COMMON-MODE REJECTION RATIO

vs SUPPLY VOLTAGE

	3.0												− dB	140
									TA = 25°C
	2.5												Supply Rejection Ratio	120
Supply Current − mA		TA = −40 °C
														100
	2.0
	1.5									TA = 125°C				80
		TA = 70°C												60
	1.0
−													−Power	40
DD
		AV = 1
I	0.5													20
		SHDN = VDD											PSRR
	0.0	Per Channel												0
	4	5	6	7	8	9	10	11	12	13	14	15	16
				VDD − Supply Voltage - V

vs

vs

FREQUENCY

FREQUENCY

− dB

140

VDD = 5 V and 12 V

VDD = 12 V

Ratio

120

TA = 25°C

Rejection

100

Mode-Common

80

60

VDD = 5 V

40

−

20

0

10

100

1k

10k

100k

1M

CMRR

0

10M

100

1k

10k

100k

1M

10M

f − Frequency − Hz

f - Frequency - Hz

Figure 10

Figure 11

Figure 12

EQUIVALENT INPUT NOISE VOLTAGE vs

FREQUENCY

Hz	40
nV/	35	VDD = 12 V
−	30
Voltage
	25
Noise	20
Input	15
− Equivalent	10	VDD = 5 V
	5
	0
n
V	10	100	1k	10k	100k
			f − Frequency − Hz

Figure 13

PEAK-TO-PEAK OUTPUT	PEAK-TO-PEAK OUTPUT
VOLTAGE	VOLTAGE
vs	vs
FREQUENCY	FREQUENCY

		12					12
− V						− V		VDD = 12 V
Voltage		10	VDD = 12 V			Voltage	10
Output		8				Output	8
to-Peak-Peak		6				to-Peak-Peak	6
		4	VDD = 5 V				4	VDD = 5 V
−		2	THD+N < = 5%			−	2	THD+N < = 5%
O(PP)			TA = 25°C			O(PP)		TA = 25°C
			RL = 600	Ω				RL = 10 kΩ
V		0				V	0
		10k		100k	1M	10M	10k	100k	1M	10M
				f - Frequency - Hz				f - Frequency - Hz
				Figure 14				Figure 15
			CROSSTALK
				vs
			FREQUENCY
		0
		−20	VDD = 5 V and 12 V
			AV = 1
			RL = 10 kΩ
		−40 VI(PP) = 2 V
			For All Channels
− dB		−60
		−80
Crosstalk
	−100
	−120
	−140
	−160
		10	100	1k	10k	100k
				f − Frequency − Hz

Figure 16

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TYPICAL CHARACTERISTICS

DIFFERENTIAL VOLTAGE GAIN AND

DIFFERENTIAL VOLTAGE GAIN AND

			PHASE
				vs
	80		FREQUENCY			0
− dB	70
	60		Gain			−45
Gain
	50
Different Voltage	40				Phase	−90	Phase − °
	30
	20					−135
	10
−		VDD = ±2.5 V
VD	0					−180
		RL = 10 kΩ
A
	−10	CL = 0 pF
	−20	TA = 25°C				−225
	1k	10k	100k	1M	10M	100M
			f − Frequency − Hz

			PHASE
				vs
	80	FREQUENCY				0
− dB	70
	60	Gain				−45
Gain
	50
Different Voltage	40				Phase	−90	Phase − °
	30
	20					−135
	10
−		VDD = ±6 V
VD	0					−180
		RL = 10 kΩ
A
	−10 CL = 0 pF
	−20	TA = 25°C				−225
	1k	10k	100k	1M	10M	100M
		f − Frequency − Hz

Figure 17

Figure 18

			PHASE MARGIN			PHASE MARGIN
			vs			vs
			LOAD CAPACITANCE			LOAD CAPACITANCE
		40°	Rnull = 0 Ω		45°
						Rnull = 0 Ω
		35°	Rnull = 100 Ω		40°
		30°			35°
	Margin	25°		Margin	30°	Rnull = 50 Ω
					25°	Rnull = 100 Ω
	Phase	20°	Rnull = 50 Ω	Phase
					20°
		15°	Rnull = 20 Ω			Rnull = 20 Ω
	−			−	15°
	m			m
	φ	10°	VDD = 5 V	φ		VDD = 12 V
					10°
		5°	RL = 10 kΩ		5°	RL = 10 kΩ
			TA = 25°C			TA = 25°C
		0°		100	0°
		10			10	100
			CL − Load Capacitance − pF			CL − Load Capacitance − pF

Figure 19

Figure 20

		GAIN MARGIN				GAIN BANDWIDTH PRODUCT
		vs									vs
		LOAD CAPACITANCE						SUPPLY VOLTAGE
	5
		Rnull = 0 Ω			10.0
	4			MHz-		TA = 25°C
		Rnull = 100 Ω
	4.5				9.9	CL = 11 pF
dB−MarginPhase−		Rnull = 20 Ω		ProductBandwidth	9.8		RL = 600 Ω
	3.5				9.7
											RL = 10 kΩ
	3				9.6
	2.5	Rnull = 50 Ω			9.5
	2				9.4
φ	1.5	VDD = 12 V		Gain	9.3
m
	1	RL = 10 kΩ		-	9.2
				GBWP
	0.5	TA = 25°C			9.1
	0		100		9.0
	10
					4	5	6	7	8	9	10	11	12	13	14	15	16
		CL − Load Capacitance − pF
								VDD - Supply Voltage - V

			GAIN MARGIN
				vs
			LOAD CAPACITANCE
		4		Rnull = 0 Ω
		3.5
	− dB	3		Rnull = 100 Ω
		2.5
	Margin
		2	Rnull = 50 Ω
	G − Gain	1.5
		1	VDD = 5 V
				Rnull = 20 Ω
		0.5	RL = 10 kΩ
			TA = 25°C
		0
		10		100
			CL − Load Capacitance − pF

Figure 21

SLEW RATE vs

SUPPLY VOLTAGE

22

21RL = 600 Ω and 10 kΩ CL = 50 pF

	20		AV = 1
µ s	19
										Slew Rate −
− V/
	18
Rate	17
Slew−	16										Slew		Rate		+
SR	15
	14
	13
	12
	4		5		6		7			8	9	10		11		12			13	14	15	16

VDD - Supply Voltage - V

Figure 22	Figure 23	Figure 24

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TYPICAL CHARACTERISTICS

SR − Slew Rate − V/ s

SLEW RATE vs

FREE-AIR TEMPERATURE

25

VDD = 5 V

RL = 600 Ω and 10 kΩ

20

Slew Rate −

CL = 50 pF

AV = 1

15

Slew Rate +

10

5

0 −55 −35 −15 5 25 45 65 85 105 125

TA - Free-Air Temperature - °C

SR − Slew Rate − V/ s

TOTAL HARMONIC DISTORTION

SLEW RATE

PLUS NOISE

vs

vs

FREE-AIR TEMPERATURE

1

FREQUENCY

25

Slew Rate −

− %

VDD = 5 V

Noise+

AV = 100

20

RL = 10 kΩ

VO(PP) = 2 V

Distortion

0.1

15

Slew Rate +

10

VDD = 12 V

Harmonic

AV = 10

0.01

5

RL = 600 Ω and 10 kΩ

Total

AV = 1

CL = 50 pF

AV = 1

0

0.001

−55

−35

−15

5

25

45

65

85

105

125

100

1k

10k

100k

TA - Free-Air Temperature - °C

f − Frequency − Hz

	Figure 25	Figure 26	Figure 27
	TOTAL HARMONIC DISTORTION	TOTAL HARMONIC DISTORTION	TOTAL HARMONIC DISTORTION
	PLUS NOISE		PLUS NOISE
		PLUS NOISE
	vs		vs
		vs
	FREQUENCY		PEAK-TO-PEAK OUTPUT VOLTAGE
		PEAK-TO-PEAK OUTPUT VOLTAGE

0.1		VDD = 12 V		10	VDD = 5 V								10	VDD = 12 V
− %												− %
				%					RL = 250 Ω
		RL = 10 kΩ			AV = 1									AV = 1
		VO(PP) = 12 V		1	f = 1 kHz								1	f = 1 kHz
	AV = 100																RL = 250 Ω
				0.1									0.1
0.01
Total HarmonicDistortionNoise+	AV = 10			0.01			RL = 600 Ω					Total HarmonicDistortionNoise+	0.01			RL = 600 Ω
	AV = 1			0.001					RL = 10 kΩ				0.001				RL = 10 kΩ
				NoiseDistortionHarmonicTotal+−
0.001				0.0001									0.0001
100	1k	10k	100k										0.5	2.5	4.5	6.5	8.5	10.5
				0.25	0.75	1.25	1.75	2.25	2.75	3.25	3.75
	f − Frequency − Hz												VO(PP) − Peak-to-Peak Output Voltage − V
				VO(PP) − Peak-to-Peak Output Voltage − V
	Figure 28					Figure 29									Figure 30

	LARGE SIGNAL FOLLOWER	LARGE SIGNAL FOLLOWER	SMALL SIGNAL FOLLOWER PULSE
	PULSE RESPONSE		RESPONSE
		PULSE RESPONSE

			VI (1 V/Div)
Voltage − V			VO (500 mV/Div)
− Output
			VDD = 5 V
O			RL = 600 Ω
V				and 10 kΩ
			CL = 8 pF
			TA = 25°C
0	0.2	0.4	0.6	0.8	1	1.2	1.4	1.6	1.8	2
				t − Time −		µs

Figure 31

			VI (5 V/Div)
− V
− Output Voltage			VO (2 V/Div)
				VDD = 12 V
O				RL = 600 Ω
V				and 10 kΩ
				CL = 8 pF
				TA = 25°C
0	0.2	0.4	0.6	0.8	1	1.2	1.4	1.6	1.8	2
				t − Time −		µs

Figure 32

			VI(100mV/Div)
Voltage − V
− Output			VO(50mV/Div)
O		VDD = 5 V and 12 V
V
		RL = 600 Ω and 10 kΩ
		CL = 8 pF
		TA = 25°C
0	0.1	0.2	0.3	0.4	0.5 0.6 0.7	0.8	0.9 0.10
				t − Time − µs

Figure 33

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