Burr Brown OPA3680E-2K5, OPA3680U, OPA3680U-2K5, OPA3680E-250 Datasheet

TM

®

©

1998 Burr-Brown Corporation PDS-1434C Printed in U.S.A. October, 1999

International Airport Industrial Park • Mailing Address: PO Box 11400, Tucson, AZ 85734 • Street Address: 6730 S. Tucson Blvd., Tucson, AZ 85706 • Tel: (520) 746-1111

Twx: 910-952-1111 • Internet: http://www.burr-brown.com/ • Cable: BBRCORP • Telex: 066-6491 • FAX: (520) 889-1510 • Immediate Product Info: (800) 548-6132

OPA3680

Triple, Wideband, Voltage-Feedback

OPERATIONAL AMPLIFIER With Disable

FEATURES

● WIDEBAND +5V OPERATION: 220MHz (G = +2)

● HIGH OUTPUT CURRENT: 150mA

● OUTPUT VOLTAGE SWING: ±4.0V

● HIGH SLEW RATE: 1800V/µs

● LOW SUPPLY CURRENT: 6.4mA/ch

● LOW DISABLED CURRENT: 300µA/ch

● ENABLE/DISABLE TIME: 25ns/100ns

APPLICATIONS

● VIDEO LINE DRIVING

● xDSL LINE DRIVER

● HIGH-SPEED IMAGING CHANNELS

● ADC BUFFERS

● PORTABLE INSTRUMENTS

● TRANSIMPEDANCE AMPLIFIERS

● ACTIVE FILTERS

DESCRIPTION

The OPA3680 represents a major step forward in
unity gain stable, voltage-feedback op amps. A new
internal architecture provides slew rate and full power
bandwidth previously found only in wideband cur­rent-feedback op amps. A new output stage architec­ture delivers high currents with a minimal headroom
requirement. These give exceptional single-supply
operation. Using a single +5V supply, the OPA3680
can deliver a 1V to 4V output swing with over 80mA
drive current and 150MHz bandwidth. This combina­tion of features makes the OPA3680 an ideal RGB
line driver or single-supply ADC input driver.

The OPA3680’s low 6.4mA/ch supply current is pre­cisely trimmed at 25°C. This trim, along with low
temperature drift, guarantees lower maximum supply

current than competing products. System power may be
reduced further using the optional disable control pin.
Leaving this disable pin open, or holding it high, will
operate the OPA3680 normal. If pulled low, the
OPA3680 supply current drops to less than 300µA/ch
while the output goes into a high impedance state. This
feature may be used for either power savings or to
implement video MUX applications.

OPA3680 RELATED PRODUCTS

SINGLES DUALS TRIPLES

Voltage Feedback OPA680 OPA2680 OPA3680
Current Feedback OPA681 OPA2681 OPA3681
Fixed Gain OPA682 OPA2682 OPA3682

OPA3680

OPA3680

1/3

OPA3680

1/3

OPA3680

V

IN

V

OUT

49.9Ω 49.9Ω

R

75.0Ω

49.9Ω

49.9Ω

R

75.0Ω

249Ω

249Ω

249Ω

1pF

C

330pF

C

330pF

1/3

OPA3680

249Ω

1pF

Buffered Analog Delay Line (100ns)

For most current data sheet and other product

information, visit www.burr-brown.com

2

OPA3680

®

SPECIFICATIONS: VS = ±5V

RF = 250Ω, RL = 100Ω, and G = +2, (Figure 1 for AC performance only), RF = 25Ω for G = +1, unless otherwise noted.

OPA3680E, U

TYP GUARANTEED

0

°C to –40°C to MIN/

TEST

PARAMETER CONDITIONS +25°C +25°C

(2)

70°C

(3)

+85°C

(3)

UNITS MAX

LEVEL

(1)

AC PERFORMANCE (Figure 1)

Small-Signal Bandwidth G = +1, V

O

= 0.5Vp-p, RF = 25Ω 400 MHz typ C

G = +2, V

O

= 0.5Vp-p 220 210 200 190 MHz min B

G = +10, V

O

= 0.5Vp-p 30 20 20 20 MHz min B
Gain Bandwidth Product G ≥ 10 300 200 200 200 MHz min B
Bandwidth for 0.1dB Gain Flatness G = +2, V

O

< 0.5Vp-p 30 MHz typ C

Peaking at a Gain of +1 V

O

< 0.5Vp-p 4 dB typ C

Large-Signal Bandwidth G = +2, V

O

= 5Vp-p 175 MHz typ C
Slew Rate G = +2, 4V Step 1800 1400 1200 900 V/µs min B
Rise/Fall Time G = +2, V

O

= 0.5V Step 1.4 ns max B

G = +2, V

O

= 4V Step 2.8 ns max B

Settling Time to 0.02% G = +2, V

O

= 0 ≥ 2V Step 12 ns typ C

0.1% G = +2, V

O

= 0 ≥ 2V Step 8 ns typ C

Harmonic Distortion G = +2, f = 5MHz, V

O

= 2Vp-p

2nd Harmonic R

L

= 100Ω –80 dBc typ C

R

L

≥ 500Ω –90 dBc typ C

3rd Harmonic R

L

= 100Ω –77 dBc typ C

R

L

≥ 500Ω –90 dBc typ C
Crosstalk Input Referred, f = 5MHz, All Hostile –58 dBc typ C
Input Voltage Noise f > 1MHz 4.8 5.3 5.9 6.1 nV/√Hz max B
Input Current Noise f > 1MHz 2.5 2.8 3.0 3.6 pA/√Hz max B
Differential Gain G = +2, NTSC, V

O

= 1.4Vp, RL = 150 0.05 % typ C

Differential Phase G = +2, NTSC, V

O

= 1.4Vp, RL = 150 0.03 deg typ C

DC PERFORMANCE

(4)

Open-Loop Voltage Gain (AOL)V

O

= 0V, RL = 100Ω 58 54 52 50 dB min A

Input Offset Voltage V

CM

= 0V ±1.0 ±5.0 ±5.5 ±6.5 mV max A

Average Offset Voltage Drift V

CM

= 0V ±10 ±10 µV/°C max B

Input Bias Current V

CM

= 0V +8 +15 +20 +35 µA max A

Average Bias Current Drift (magnitude) V

CM

= 0V –70 –150 nA/°C max B

Input Offset Current V

CM

= 0V ±0.1 ±0.8 ±1.2 ±1.5 µA max A

Average Offset Current Drift V

CM

= 0V ±1 ±1.5 nA/°C max B

INPUT

Common-Mode Input Range (CMIR)

(5)

±3.5 ±3.4 ±3.3 ±3.2 V min A

Common-Mode Rejection Ratio (CMRR) V

CM

= ±1.0V 59 56 53 53 dB min A

Input Impedance

Differential-Mode 190 || 0.6 kΩ || pF typ C
Common-Mode 3.2 || 0.9 MΩ || pF typ C

OUTPUT

Voltage Output Swing No Load ±4.0

±3.8 ±3.7 ±3.6 V min A

100Ω Load ±3.9

±3.7 ±3.6 ±3.3 V min A

Current Output, Sourcing V

O

= 0 +190 +160 +140 +80 mA min A

Current Output, Sinking V

O

= 0 –150 –135 –130 –80 mA min A

Closed-Loop Output Impedance G = +2, f = 100kHz 0.03 typ C
DISABLE Disable Low

Power-Down Supply Current (+VS)

V

DIS

= 0V, Each Channel –300 µA typ C
Disable Time 100 ns typ C
Enable Time 25 ns typ C
Off Isolation G = +2, 5MHz 70 dB typ C
Output Capacitance in Disable 4 pF typ C
Turn On Glitch G = +2, R

L

= 150Ω±50 mV typ C

Turn Off Glitch G = +2, R

L

= 150Ω±20 mV typ C
Enable Voltage 3.3 3.5 3.6 3.7 V min A
Disable Voltage 1.8 1.7 1.6 1.5 V max A
Control Pin Input Bias Current V

DIS

= 0V 100 160 160 160 µA max A

POWER SUPPLY

Specified Operating Voltage ±5 V typ C
Maximum Operating Voltage Range

±6 ±6 ±6 V max A

Max Quiescent Current V

S

= ±5V, Each Channel 6.4 6.8 7.0 7.2 mA max A

Min Quiescent Current V

S

= ±5V, Each Channel 6.4 6.0 6.0 5.3 mA min A

Power Supply Rejection Ratio (+PSRR) Input Referred 65 60 58 58 dB min A

THERMAL CHARACTERISTICS

Specified Operating Range U, E Package

–40 to +85

°C typ C

Thermal Resistance,

θ

JA

U SO-16 100 °C/W typ C
E SSOP-16 100 °C/W typ C

NOTES: (1) Test Levels: (A) 100% tested at 25°C. Over temperature limits by characterization and simulation. (B) Limits set by characterization and simulation.
(C) Typical value only for information. (2) Junction temperature = ambient for 25°C guaranteed specifications. (3) Junction temperature = ambient at low temperature
limit: junction temperature = Ambient +23°C at high temperature limit for over temperature guaranteed specifications. (4) Current is considered positive out-of-node.
V

CM

is the input common-mode voltage. (5) Tested < 3dB below minimum CMR specification at ±CMIR limits.

3

®

OPA3680

SPECIFICATIONS: VS = +5V

RF = 250Ω, RL = 100Ω to VS/2, G = +2, (Figure 2 for AC performance only), RF = 25Ω for G = +1, unless otherwise noted.

OPA3680E, U

TYP GUARANTEED

0°C to –40°C to

MIN/

TEST

PARAMETER CONDITIONS +25°C +25°C

(2)

70°C

(3)

+85°C

(3)

UNITS MAX

LEVEL

(1)

AC PERFORMANCE (Figure 2)

Small-Signal Bandwidth G = +1, V

O

< 0.5Vp-p 300 MHz typ C

G = +2, V

O

< 0.5Vp-p 220 160 160 140 MHz min B

G = +10, V

O

< 0.5Vp-p 25 20 19 18 MHz min C
Gain Bandwidth Product G ≥ 10 250 200 190 180 MHz min B
Bandwidth for 0.1dB Gain Flatness G = +2, V

O

< 0.5Vp-p 20 MHz typ C

Peaking at a Gain of +1 V

O

< 0.5Vp-p 5 dB typ C

Large-Signal Bandwidth G = +2, V

O

= 2Vp-p 175 MHz typ C
Slew Rate G = +2, 2V Step 1000 700 670 550 V/µs min B
Rise Time G = +2, V

O

= 0.5V Step 1.6 ns typ C

Fall Time G = +2, V

O

= 2V Step 2.0 ns typ C

Settling Time to 0.02% G = +2, V

O

= 2V Step 12 ns typ C

0.1% G = +2, V

O

= 2V Step 8 ns typ C

Harmonic Distortion G = +2, f = 5MHz, VO = 2Vp-p

2nd Harmonic R

L

= 100Ω –70 dBc typ C

R

L

≥ 500Ω –80 dBc typ C

3rd Harmonic R

L

= 100Ω –71 dBc typ C

R

L

≥ 500Ω –84 dBc typ C
Input Voltage Noise f > 1MHz 5 5.5 6 6.2 nV/√Hz max B
Input Current Noise f > 1MHz 2.5 3 3.5 3.4 pA/√Hz max B
Differential Gain G = +2, NTSC, V

O

= 1.4Vp, RL = 150 to VS/2 0.06 % typ C

Differential Phase G = +2, NTSC, V

O

= 1.4Vp, RL = 150 to VS/2 0.03 deg typ C

DC PERFORMANCE

(4)

Open-Loop Voltage Gain (AOL)V

O

= 0V, RL = 100Ω 58 54 52 50 dB min A

Input Offset Voltage V

CM

= 2.5V ±1.0 ±6.5 ±7.5 ±9.0 mV max A

Average Offset Voltage Drift V

CM

= 2.5V –10 –12 µV/°C max B

Input Bias Current V

CM

= 2.5V +8 +16 +21 +37 µA max A

Average Bias Current Drift (magnitude) V

CM

= 2.5V –52 –80 nA/ °C max B

Input Offset Current V

CM

= 2.5V ±0.1 ±0.7 ±1.0 ±1.2 µA max A

Average Offset Current Drift V

CM

= 2.5V ±0.5 ±1.0 nA/°C max B

INPUT

Least Positive Input Voltage

(5)

1.5 1.6 1.7 1.8 V min A

Most Positive Input Voltage

(5)

3.5 3.4 3.3 3.2 V max A

Common-Mode Rejection Ratio (CMRR)

VCM = 2.5V 59 56 53 52 dB min A

Input Impedance

Differential-Mode 92 || 1.4 kΩ || pF typ C
Common-Mode 2.2 || 1.5 MΩ || pF typ C

OUTPUT

Most Positive Output Voltage No Load 4 3.8 3.6 3.5 V min A

R

L

= 100Ω, 2.5V 3.9 3.7 3.5 3.4 V min A

Least Positive Output Voltage No Load 1 1.2 1.4 1.5 V min A

R

L

= 100Ω, 2.5V 1.1 1.3 1.5 1.7 V min A
Current Output, Sourcing +150 +110 +110 +60 mA min A
Current Output, Sinking –110 –80 –70 –50 mA min A
Closed-Loop Output Impedance G = +2, f = 100kHz 0.03 typ C

DISABLE Disable Low
Power-Down Supply Current (+V

S

) V

DIS

= 0V, Each Channel –250 µA typ C

Disable Time 100 ns typ C
Enable Time 25 ns typ C
Off Isolation G = +2, 5MHz 65 dB typ C
Output Capacitance in Disable 4 pF typ C
Turn On Glitch G = +2, R

L

= 150Ω, VIN = VS/2 ±50 mV typ C

Turn Off Glitch G = +2, R

LP

= 150Ω, VIN = VS/2 ±20 mV typ C
Enable Voltage 3.3 3.5 3.6 3.7 V min A
Disable Voltage 1.8 1.7 1.6 1.5 V max A
Control Pin Input Bias Current V

DIS

= 0V 100 µA typ C

POWER SUPPLY

Specified Single Supply Operating Voltage 5 V typ C
Maximum Single Supply Operating Voltage 12 12 12 V max A
Max Quiescent Current V

S

= +5V, Each Channel 5.1 6.0 6.0 6.0 mA max A

Min Quiescent Current V

S

= +5V, Each Channel 5.1 4.0 4.0 3.8 mA min A

Power Supply Rejection Ratio

(+PSRR)

Input Referred 55 dB typ C

TEMPERATURE RANGE

Specification: U, E

–40 to +85

°C typ C

Thermal Resistance,

θ

JA

U SO-16 100 °C/W typ C
E SSOP-16 100 °C/W typ C

NOTES: (1) Test Levels: (A) 100% tested at 25°C. Over temperature limits by characterization and simulation. (B) Limits set by characterization and simulation.
(C) Typical value only for information. (2) Junction temperature = ambient for 25°C guaranteed specifications. (3) Junction temperature = ambient at low temperature
limit: junction temperature = ambient +23°C at high temperature limit for over temperature guaranteed specifications. (4) Current is considered positive out-of-node.
V

CM

is the input common-mode voltage. (5) Tested < 3dB below minimum CMR specification at ±CMIR limits.

4

OPA3680

®

PIN CONFIGURATION

Top View SSOP-16/SO-16

ABSOLUTE MAXIMUM RATINGS

Power Supply ............................................................................... ±6.5V

DC

Internal Power Dissipation ................................ See Thermal Information

Differential Input Voltage .................................................................. ±1.2V

Input Voltage Range ............................................................................ ±V

S

Storage Temperature Range: U, E ................................ –40°C to +125°C

Lead Temperature (soldering, 10s) .............................................. +300°C

Junction Temperature (T

J

) ........................................................... +175°C

PACKAGE
DRAWING TEMPERATURE PACKAGE ORDERING TRANSPORT

PRODUCT PACKAGE NUMBER RANGE MARKING NUMBER

(1)

MEDIA

OPA3680E SSOP-16 Surface Mount 322 –40°C to +85°C OPA3680E OPA3680E/250 Tape and Reel

"""""OPA3680E/2K5 Tape and Reel

OPA3680U SO-16 Surface Mount 265 –40°C to +85°C OPA3680U OPA3680U Rails

"""""OPA3680U/2K5 Tape and Reel

NOTE: (1) Models with a slash (/) are available only in Tape and Reel in the quantities indicated (e.g., /2K5 indicates 2500 devices per reel). Ordering 2500 pieces
of “OPA3680E/2K5” will get a single 2500-piece Tape and Reel.

ELECTROSTATIC
DISCHARGE SENSITIVITY

Electrostatic discharge can cause damage ranging from perfor­mance degradation to complete device failure. Burr-Brown Corpo­ration recommends that all integrated circuits be handled and stored
using appropriate ESD protection methods.

ESD damage can range from subtle performance degradation to
complete device failure. Precision integrated circuits may be more
susceptible to damage because very small parametric changes
could cause the device not to meet published specifications.

PACKAGE/ORDERING INFORMATION

1

2

3

4

5

6

7

8

16

15

14

13

12

11

10

9

–IN A

+IN A

DIS B

–IN B

+IN B

DIS C

–IN C

+IN C

DIS A

+V

S

OUT A

–V

S

OUT B

+V

S

OUT C

–V

S

OPA3680

The information provided herein is believed to be reliable; however, BURR-BROWN assumes no responsibility for inaccuracies or omissions. BURR-BROWN assumes no
responsibility for the use of this information, and all use of such information shall be entirely at the user’s own risk. Prices and specifications are subject to change without notice.
No patent rights or licenses to any of the circuits described herein are implied or granted to any third party. BURR-BROWN does not authorize or warrant any BURR-BROWN product
for use in life support devices and/or systems.

5

®

OPA3680

TYPICAL PERFORMANCE CURVES: VS = ±5V

At TA = +25°C, G = +2, RF = 250Ω, and RL = 100Ω, unless otherwise noted. See Figure 1.

6
3

0
–3
–6
–9

–12
–15
–18
–21
–24

SMALL-SIGNAL FREQUENCY RESPONSE

Frequency (MHz)

Normalized Gain (3dB/div)

0.5 10 100 500

G = +5

VO = 0.5Vp-p

G = +10

G = +2

G = +1

R

F

= 25Ω

15
12

9
6
3

0
–3
–6
–9

–12
–15

LARGE-SIGNAL FREQUENCY RESPONSE

Frequency (MHz)

0.5 10 100 500

VO = 7Vp-p

VO = 1Vp-p

VO = 2Vp-p

VO = 4Vp-p

Gain (3dB/div)

400
300
200
100

0
–100
–200
–300
–400

SMALL-SIGNAL PULSE RESPONSE

Time (5ns/div)

Output Voltage (100mV/div)

G = +2

V

O

= 0.5Vp-p

+4
+3
+2
+1

0
–1
–2
–3
–4

LARGE-SIGNAL PULSE RESPONSE

Time (5ns/div)

Output Voltage (1V/div)

G = +2

V

O

= 5Vp-p

2.0

1.6

0.8

0.4
0

6.0

4.0

2.0
0

LARGE-SIGNAL DISABLE/ENABLE RESPONSE

Time (50ns/div)

V

O

(0.4V/div)

V

DIS

(2V/div)

Output Voltage

V

DIS

G = +2

V

IN

= +1V

DISABLED FEEDTHROUGH vs FREQUENCY

–45
–50
–55
–60
–65
–70
–75
–80
–85
–90
–95

Frequency (MHz)

1 10 100

Feedthrough (5dB/div)

Forward

V

DIS

= 0

Reverse

6

OPA3680

®

TYPICAL PERFORMANCE CURVES: VS = ±5V (Cont.)

At TA = +25°C, G = +2, RF = 250Ω, and RL = 100Ω, unless otherwise noted. See Figure 1.

HARMONIC DISTORTION

vs OUTPUT VOLTAGE

–50

–60

–70

–80

–90

0.1 1 5

Harmonic Distortion (dBc)

Output Voltage (Vp-p)

f = 5MHz

3rd Harmonic

2nd Harmonic

HARMONIC DISTORTION
vs NON-INVERTING GAIN

VO = 2Vp-p

f = 5MHz

3rd Harmonic

2nd Harmonic

–50

–60

–70

–80

–90

Harmonic Distortion (dBc)

110

Gain Magnitude (V/V)

HARMONIC DISTORTION

vs INVERTING GAIN

VO = 2Vp-p

f = 5MHz

3rd Harmonic

2nd Harmonic

–50

–60

–70

–80

–90

Harmonic Distortion (dBc)

110

Gain Magnitude (V/V)

HARMONIC DISTORTION

vs FREQUENCY

–50

–60

–70

–80

–90

0.1 1 2010

Harmonic Distortion (dBc)

Frequency (MHz)

3rd Harmonic

2nd Harmonic

VO = 2Vp-p

HARMONIC DISTORTION

vs LOAD RESISTANCE

–50

–60

–70

–80

–90

10010 1000

Harmonic Distortion (dBc)

RL (Ω)

3rd Harmonic

2nd Harmonic

VO = 2Vp-p

f

0

= 5MHz

HARMONIC DISTORTION

vs SUPPLY VOLTAGE

–50

–60

–70

–80

–90

56789101112

Harmonic Distortion (dBc)

Total Supply Voltage (V)

3rd Harmonic

2nd Harmonic

VO = 2Vp-p

f

0

= 5MHz

7

®

OPA3680

TYPICAL PERFORMANCE CURVES: VS = ±5V

At TA = +25°C, G = +2, RF = 250Ω, and RL = 100Ω, unless otherwise noted. See Figure 1.

70
60
50
40
30
20
10

0
–10
–20

0
–30
–60
–90
–120
–150
–180
–210
–240
–270

OPEN-LOOP GAIN AND PHASE

Frequency (Hz)

10k 1G100k 10M1M 100M

Open-Loop Gain (dB)

Open-Loop Phase (degrees)

Open-Loop Gain

Open-Loop Phase

100

90
80
70
60
50
40
30
20
10

0

CMRR AND PSRR vs FREQUENCY

Frequency (Hz)

10k 100M100k 1M 10M

Power Supply Rejection Ratio (dB)

Common-Mode Rejection Ratio (dB)

–PSRR

+PSRR
CMRR

12

9
6
3

0
–3
–6
–9

–12
–15
–18

FREQUENCY RESPONSE vs CAPACITIVE LOAD

Frequency (20MHz/div)

0 200MHz100MHz

Gain-to-Capacitive Load (3dB/div)

1/3

OPA3680

R

S

V

IN

V

O

C

L

1kΩ

250Ω

250Ω

250Ω

1kΩ is optional

Signal Gain = +2

Noise Gain = +3

22pF/32.4Ω

10pF/22.2Ω

47pF/26.7Ω

100pF/20Ω

35

30

25

20

15

10

5

0

RECOMMENDED R

S

vs CAPACITIVE LOAD

Capacitive Load (pF)

10 100

R

S

(Ω)

–40

–50

–60

–70

–80

–90

TWO-TONE, 3rd-ORDER SPURIOUS LEVEL

Single-Tone Load Power (dBm)

–8–6–4–20246810

3rd-Order Spurious Level (dBc)

50MHz

20MHz

10MHz

Load Power at matched 50Ω load

100

10

1

INPUT VOLTAGE AND CURRENT NOISE DENSITY

Frequency (Hz)

100 1k 10k 100k 1M 10M

Voltage Noise (nV/√Hz)

Current Noise (pA/√Hz)

Voltage Noise

Current Noise

2.5pA/√Hz

4.8nV/√Hz