Datasheet LM6152BCMX, LM6152BCM, LM6152ACN, LM6152ACMX, LM6152ACM Datasheet (NSC)

LM6152/LM6154
Dual and Quad High Speed/Low Power 75 MHz GBW
Rail-to-Rail I/O Operational Amplifiers

General Description

Using patented circuit topologies, the LM6152/54 provides
new levels of speed vs. power performance in applications
where low voltage supplies or power limitations previously
made compromise necessary. With only 1.4 mA/amplifier
supply current, the 75 MHz gain bandwidth of this device
supports new portable applications where higher power de­vices unacceptably drainbatterylife. The slew rate of the de­vices increases with increasing input differential voltage,
thus allowing the device to handle capacitive loads while
maintaining large signal amplitude.

The LM6152/54 can be driven by voltages that exceed both
power supply rails, thus eliminating concerns about exceed­ing the common-mode voltage range. The rail-to-rail output
swing capability provides the maximum possible dynamic
range at the output. This is particularly important when oper­ating on low supply voltages.

Operating on supplies from 2.7V to over 24V,the LM6152/54
is excellent for a very wide range of applications, from bat­tery operated systems with large bandwidth requirements to
high speed instrumentation.

Features

At V

S

=

5V, Typ unless noted

n Greater than Rail-to-Rail Input CMVR −0.25V to 5.25V
n Rail-to-Rail Output Swing 0.01V to 4.99V
n Wide Gain-Bandwidth: 75 MHz

@

100 kHz

n Slew Rate:

Small signal 5V/µs
Large signal 45V/µs

n Low supply current 1.4mA/amplifier
n Wide supply range 2.7V to 24V
n Fast settling time of 1.1µs for 2V step (to 0.01%)
n PSRR 91 dB
n CMRR 84 dB

Applications

n Portable high speed instrumentation
n Signal conditioning amplifier/ADC buffers
n Barcode scanners

Connection Diagrams

8-Pin DIP/SO

DS012350-3

Top View

14-Pin DIP/SO

DS012350-4

Top View

May 1999

LM6152/LM6154Dual and Quad High Speed/Low Power 75 MHz GBW Rail-to-Rail I/O Operational

Amplifiers

© 1999 National Semiconductor Corporation DS012350 www.national.com

Ordering Information

Packaged Ordering Infomation

NSC Drawing

Number

Supplied As

8-Pin Dip LM6152ACN, LM5152BCN N08E Rails
8-Pin SOIC

LM6152ACM, LM6152BCM M08A Rails

LM6152ACMX, LM6152BCMX M08A 2.5k Tape and Reel

14-Pin DIP LM6154ACN, LM6154BCN N14A Rails
14-Pin SOIC

LM6154ACM, LM6154BCM M14A Rails

LM6154ACMX, LM6154BCMX M14A 2.5k Tape and Reel

www.national.com 2

Absolute Maximum Ratings (Note 1)

If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.

ESD Tolerance (Note 2) 2500V
Differential Input Voltage 15V
Voltage at Input/Output

Pin (V

+

) + 0.3V, (V−) −0.3V

Supply Voltage (V

+−V−

) 35V

Current at Input Pin

±

10mA

Current at Output Pin
(Note 3)

±

25mA

Current at Power Supply
Pin 50mA

Lead Temperature
(soldering, 10 sec) 260˚C

Storage Temperature
Range -65˚C to +150˚C

Junction Temperature
(Note 4) 150˚C

Operating Ratings (Note 1)

Supply Voltage 2.7V ≤ V

S

≤ 24V

Junction Temperature Range

LM6152,LM6154 0˚C ≤ T

J

≤ + 70˚C

Thermal Resistance (θ

JA

)
N Pkg, 8-pin Molded Dip 115˚C/W
M Pkg, 8-pin Surface Mount 193˚C/W
N Pkg, 14-pin Molded Dip 81˚C/W
M Pkg, 14-pin Surface Mount 126˚C/W

5.0V DC Electrical Characteristics

Unless otherwise specified, all limits guaranteed for TJ= 25˚C, V

+

=

5.0V, V

−

= 0V, V

CM

=

V

O

=

V

+

/2 and R

L

>

1MΩto V+/2.

Boldface limits apply at the temperature extremes.

Symbol Parameter Conditions

Typ

(Note 5)

LM6154AC
LM6152AC

Limit

(Note 6)

LM6154BC
LM6152BC

Limt

(Note 6)

Units

V

OS

Input Offset Voltage

0.54

2

4

5

7

mV

max

TCV

OS

Input Offset Voltage Average Drift 10 µV/˚C

I

B

Input Bias Current 0V ≤ VCM≤ 5V 500

750

980

1500

980

1500

nA

max

I

OS

Input Offset Current 32

40

100

160

100

160

nA

max

R

IN

Input Resistance, CM 0V ≤ VCM≤ 4V 30 MΩ

CMRR Common Mode Rejection Ratio 0V ≤ V

CM

≤ 4V 94 70 70

dB min

0V ≤ V

CM

≤ 5V 84 60 60

PSRR Power Supply Rejection Ratio 5V ≤ V

+

≤ 24V 91 80 80 dB min

V

CM

Input Common-Mode Voltage Range Low −0.25 0 0 V

High 5.25 5.0 5.0 V

A

V

Large Signal Voltage Gain R

L

=

10kΩ 214 50 50 V/mV

min

V

O

Output Swing

R

L

=

100kΩ

0.006

0.02

0.03

0.02

0.03

V

max

4.992

4.97

4.96

4.97

4.96

V

min

R

L

=

2kΩ

0.04

0.10

0.12

0.10

0.12

V

max

4.89

4.80

4.70

4.80

4.70

V

min

I

SC

Output Short Circuit Current Sourcing

6.2

3

2.5

3

2.5

mA
min

27

17

27

17

mA

max

Sinking

16.9

7

5

7

5

mA
min

40 40

mA

max

www.national.com3

5.0V DC Electrical Characteristics (Continued)

Unless otherwise specified, all limits guaranteed for TJ= 25˚C, V

+

=

5.0V, V

−

= 0V, V

CM

=

V

O

=

V

+

/2 and R

L

>

1MΩto V+/2.

Boldface limits apply at the temperature extremes.

Symbol Parameter Conditions

Typ

(Note 5)

LM6154AC
LM6152AC

Limit

(Note 6)

LM6154BC
LM6152BC

Limt

(Note 6)

Units

I

S

Supply Current Per Amplifier

1.4

2

2.25

2

2.25

mA

max

5.0V AC Electrical Characteristics

Unless otherwise specified, all limits guaranteed for TJ= 25˚C, V

+

=

5.0V, V

−

= 0V, V

CM

=

V

O

=

V

+

/2 and R

L

>

1MΩto V+/2.

Boldface limits apply at the temperature extremes.

Symbol Parameter Conditions

Typ

(Note 5)

LM6154AC
LM6152AC

Limit

(Note 6)

LM6154BC
LM6152BC

Limt

(Note 6)

Units

SR Slew Rate

±

4V Step@V

S

=

±

6V,

R

S

<

1kΩ

30

24

15

24

15

V/µs

min

GBW Gain-Bandwidth Product f=100 kHz 75 MHz

Amp-to-Amp Isolation R

L

=

10kΩ 125 dB

e

n

Input-Referred Voltage Noise f=1 kHz 9 nV

i

n

Input-Referred Current Noise f=1 kHz 0.34 pA

T.H.D Total Harmonic Distortion f=10 kHz, R

L

=

10kΩ 0.002

%

ts Settling Time 2V Step to 0.01

%

1.1 µs

2.7V DC Electrical Characteristics

Unless otherwise specified, all limits guaranteed for TJ= 25˚C, V

+

=

2.7V, V

−

= 0V, V

CM

=

V

O

=V+/2 and R

L

>

1MΩto V+/2.

Boldface limits apply at the temperature extremes.

Symbol Parameter Conditions

Typ

(Note 5)

LM6154AC
LM6152AC

Limit

(Note 6)

LM6154BC
LM6152BC

Limt

(Note 6)

Units

V

OS

Input Offset Voltage

0.8

2

5

5

8

mV

max

TCV

OS

Input Offset Voltage Average Drift 10 µV/˚C

I

B

Input Bias Current 500 nA

I

OS

Input Offset Current 50 nA

R

IN

Input Resistance, CM 0V ≤ VCM≤ 1.8V 30 MΩ

CMRR Common Mode Rejection Ratio 0V ≤ V

CM

≤ 1.8V 88

dB

0V ≤ V

CM

≤ 2.7V 78

PSRR Power Supply Rejection Ratio 3V ≤ V

+

≤ 5V 69 dB

V

CM

Input Common-Mode Voltage Range Low −0.25 0 0 V

High 2.95 2.7 2.7 V

A

V

Large Signal Voltage Gain R

L

=

10kΩ 5.5 V/mV

V

O

Output Swing R

L

=

10kΩ

0.032

0.07

0.11

0.07

0.11

V

max

2.68

2.64

2.62

2.64

2.62

V

min

I

S

Supply Current Per Amplifier 1.35 mA

www.national.com 4

2.7V AC Electrical Characteristics

Unless otherwise specified, all limits guaranteed for TJ= 25˚C, V

+

=

2.7V, V

−

= 0V, V

CM

=

V

O

=

V

+

/2 and R

L

>

1MΩto V+/2.

Boldface limits apply at the temperature extremes.

Symbol Parameter Conditions

Typ

(Note 5)

LM6154AC
LM6152AC

Limit

(Note 6)

LM6154BC
LM6152BC

Limt

(Note 6)

Units

GBW Gain-Bandwidth Product f=100kHz 80 MHz

24V DC Electrical Characteristics

Unless otherwise specified, all limits guaranteed for TJ= 25˚C, V

+

=

24V, V

−

= 0V, V

CM

=

V

O

=V+/2 and R

L

>

1MΩto V+/2.

Boldface limits apply at the temperature extremes.

Symbol Parameter Conditions

Typ

(Note 5)

LM6154AC
LM6152AC

Limit

(Note 6)

LM6154BC
LM6152BC

Limt

(Note 6)

Units

V

OS

Input Offset Voltage

0.3

2

4

7

9

mV

max

TCV

OS

Input Offset Voltage Average Drift 10 µV/˚C

I

B

Input Bias Current 500 nA

I

OS

Input Offset Current 32 nA

R

IN

Input Resistance, CM 0V ≤ VCM≤ 23V 60 Meg Ω

CMRR Common Mode Rejection Ratio 0V ≤ V

CM

≤ 23V 94

dB

0V ≤ V

CM

≤ 24V 84

PSRR Power Supply Rejection Ratio 0V ≤ V

CM

≤ 24V 95 dB

V

CM

Input Common-Mode Voltage Range Low −0.25 0 0 V

High 24.25 24 24 V

A

V

Large Signal Voltage Gain R

L

=

10kΩ 55 V/mV

V

O

Output Swing R

L

=

10kΩ

0.044

0.075

0.090

0.075

0.090

V

max

23.91

23.8

23.7

23.8

23.7

V

min

I

S

Supply Current Per Amplifier

1.6

2.25

2.50

2.25

2.50

mA

max

24V AC Electrical Characteristics

Unless otherwise specified, all limits guaranteed for TJ= 25˚C, V

+

=

24V, V

−

= 0V, V

CM

=

V

O

=

V

+

/2 and R

L

>

1MΩto V+/2.

Boldface limits apply at the temperature extremes.

Symbol Parameter Conditions

Typ

(Note 5)

LM6154AC
LM6152AC

Limit

(Note 6)

LM6154BC
LM6152BC

Limt

(Note 6)

Units

GBW Gain-Bandwidth Product f=100kHz 80 MHz

Note 1: 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 guaranteed. For guaranteed specifications and the test conditions, see the Electrical Characteristics.

Note 2: Human body model, 1.5kΩ in series with 100pF.
Note 3: Applies to both single-supply and split-supply operation. Continuous short circuit operation at elevated ambient temperature can result in exceeding the

maximum allowed junction temperature of 150˚C.
Note 4: The maximum power dissipation is a function of T

J(max)

, θJA, and TA. The maximum allowable power dissipation at any ambient temperature

is P

D

=(T

J(max)–TA

)/θJA. All numbers apply for packages soldered directly into a PC board.

Note 5: Typical Values represent the most likely parametric norm.
Note 6: All limits are guaranteed by testing or statistical analysis.

www.national.com5

Typical Performance Characteristics

Supply Current vs.

Supply Voltage

DS012350-5

Offset Voltage vs.

Supply voltage

DS012350-6

Bias Current vs.

Supply voltage

DS012350-7

Bias Current vs. V

CM

DS012350-8

Bias Current vs. V

CM

DS012350-9

Bias Current vs. V

CM

DS012350-10

Output Voltage vs.

Source Current

DS012350-11

Output Voltage vs.

Source Current

DS012350-12

Output Voltage vs.

Source Current

DS012350-13

Output Voltage vs.

Sink Current

DS012350-14

Output Voltage vs.

Sink Current

DS012350-15

Output Voltage vs.

Sink Current

DS012350-16

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Typical Performance Characteristics (Continued)

Crosstalk (dB

vs. Frequency

DS012350-17

GBWP (@100 kHz)
vs. Supply Voltage

DS012350-18

Unity Gain Frequency

vs. Supply Voltage

for Various Loads

DS012350-19

CMRR

DS012350-20

Voltage Swing vs.

Frequency (C

L

=

100 pF)

DS012350-22

PSRR vs. Frequency

DS012350-23

Open Loop Gain/

Phase (V

S

=

5V)

DS012350-24

Open Loop Gain/

Phase (V

S

=

10V)

DS012350-25

Open Loop Gain/
Phase (V

S

=

24V)

DS012350-26

Noise Voltage
vs. Frequency

DS012350-27

Noise Current

vs. Frequency

DS012350-28

Voltage Error

vs. Settle Time

DS012350-29

www.national.com7

Typical Performance
Characteristics

(Continued)

Application Information

The LM6152/6154 is ideally suited for operation with about
10kΩ (Feedback Resistor, R

F

) between the output and the

negative input terminal.
With R

F

set to this value, for most applications requiring a
close loop gain of 10 or less, an additional small compensa­tion capacitor (C

F

) (see

Figure 1

) is recommended across R

F

in order to achieve a reasonable overshoot (10%) at the out­put by compensating for stray capacitance across the inputs.

The optimum value for C

F

can best be established experi­mentally with a trimmer cap in place since its value is depen­dant on the supply voltage, output driving load, and the oper­ating gain. Below, some typical values used in an inverting
configuration and driving a 10kΩ load have been tabulated
for reference:

TABLE 1. Typical BW (−3 dB) at Various

Supply Voltage and Gains

V

S

Volts

Gain C

F

pF

BW (−3 dB)

MHz

3

−1 5.6 4

−10 6.8 1.97

−100 None 0.797

24

−1 2.2 6.6

−10 4.7 2.2

−100 None 0.962

In the non-inverting configuration, the LM6152/6154 can be
used for closed loop gains of +2 and above. In this case,
also, the compensation capacitor (C

F

) is recommended

across R

F

(=10 kΩ) for gains of 10 or less.

Because of the unique structure of this amplifier, when used
at low closed loop gains, the realizable BW will be much less
than the GBW product would suggest.

The LM6152/6154 brings a new level of ease of use to op
amp system design.

The greater than rail-to-rail input voltage range eliminates
concern over exceeding the common-mode voltage range.
The rail-to-rail output swing provides the maximum possible
dynamic range at the output. This is particularly important
when operating on low supply voltages.

The high gain-bandwidth with low supply current opens new
battery powered applications where higher power consump­tion previously reduced battery life to unacceptable levels.

The ability to drive large capacitive loads without oscillating
functional removes this common problem.

To take advantage of these features, some ideas should be
kept in mind.

The LM6152/6154, capacitive loads do not lead to oscilla­tions, in all but the most extreme conditions, but they will re­sult in reduced bandwidth. They also cause increased set­tling time.

Unlike most bipolar op amps, the unique phase reversal
prevention/speed-up circuit in the input stage, caused the
slew rate to be very much a function of the input pulse ampli­tude. This results in a 10 to 1 increase in slew rate when the
differential input signal increases. Large fast pulses will raise
the slew-rate to more than 30V/µs.

The speed-up action adds stability to the system when driv­ing large capacitive loads.

A conventional op amp exhibits a fixed maximum slew-rate
even though the differential input voltage rises due to the
lagging output voltage. In the LM6152/6154, increasing lag
causes the differential input voltage to increase but as it
does, the increased slew-rate keeps the output following the
input much better. This effectively reduces phase lag. As a
result, the LM6152/6154 can drive capacitive loads as large
as 470 pF at gain of 2 and above, and not oscillate.

Capacitive loads decrease the phase margin of all op amps.
This can lead to overshoot, ringing and oscillation. This is
caused by the output resistance of the amplifier and the load
capacitance forming an R-C phase shift network. The
LM6152/6154 senses this phase shift and partly compen­sates for this effect.

Total Harmonic Distortion

vs. Frequency

DS012350-31

DS012350-30

FIGURE 1. Typical Inverting Gain Circuit A

V

=

−1

DS012350-21

FIGURE 2. Slew Rate vs. V

diff

www.national.com 8

Physical Dimensions inches (millimeters) unless otherwise noted

8-Lead (0.150”) Molded Small Outline Package, JEDEC

Ordering Number LM6152ACM or LM7162BCM

NSC Package Number M08A

14-Lead (0.150”) Molded Small Outline Package, JEDEC

Order Number LM6154ACM or LM6154BCM

NSC Package Number M14A

www.national.com9

Physical Dimensions inches (millimeters) unless otherwise noted (Continued)

8-Lead (0.300” Wide) Molded Dual-In-Line Package, JEDEC

Order Number LM615ACN or LM6152BCN

NSC Package Number N08E

www.national.com 10

Physical Dimensions inches (millimeters) unless otherwise noted (Continued)

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significant injury to the user.

2. A critical component is any component of a life
support device or system whose failure to perform
can be reasonably expected to cause the failure of
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www.national.com

14-Lead (0.300” Wide) Molded Dual-In-Line Package, JEDEC

Order Number LM6154ACN or LM6154BCN

NSC Package Number N14A

LM6152/LM6154Dual and Quad High Speed/Low Power 75 MHz GBW Rail-to-Rail I/O Operational

Amplifiers

National does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications.