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LPV321 Single/ LPV358 Dual/ LPV324 Quad General Purpose, Low Voltage, Low Power,

Rail-to-Rail Output Operational Amplifiers

August 1999

LPV321 Single/ LPV358 Dual/ LPV324 Quad

General Purpose, Low Voltage, Low Power, Rail-to-Rail

Output Operational Amplifiers

General Description

The LPV321/358/324 are low power (9µA per channel at

5.0V) versions of the LMV321/358/324 op amps. This is an-

other addition to the LMV321/358/324 family of commodity

op amps.

The LPV321/358/324 are the most cost effective solutions

for the applications where low voltage, low power operation,

space saving and low price are needed. The

LPV321/358/324 have rail-to-rail output swing capability and

the input common-mode voltage range includes ground.

They all exhibit excellent speed-power ratio, achieving

152 KHz of bandwidth with a supply current of only 9µA.

The LPV321 is available in space saving SC70-5, which is

approximately half the size of SOT23-5. The small package

saves space on pc boards, and enables the design of small

portable electronic devices. It also allows the designer to

place the device closer to the signal source to reduce noise

pickup and increase signal integrity.

The chips are built with National’s advanced submicron

silicon-gate BiCMOS process. The LPV321/358/324 have bi-

polar input and output stages for improved noise perfor-

mance and higher output current drive.

Features

(For V

= 5V and V

−

= 0V, Typical Unless Otherwise Noted)

Guaranteed 2.7V and 5V Performance

No Crossover Distortion

Space Saving Package

Industrial Temp.Range

Gain-Bandwidth Product

Low Supply Current

SC70-5

2.0x2.1x1.0mm

−40˚C to +85˚C

152KHz

9µA

15µA

28µA

−3.5mV

−

+90mV

−0.2V to V

−0.8V

LPV321

LPV358

LPV324

Rail-to-Rail Output Swing

100kΩ Load

Applications

Active Filters

General Purpose Low Voltage Applications

General Purpose Portable Devices

Connection Diagrams

5-Pin

SC70-5/SOT23-5

14-Pin SO/TSSOP

DS100920-3

DS100920-1

Top View

8-Pin SO/MSOP

Top View

DS100920-2

Top View

DS100920

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Ordering Information

Temperature Range

Package

5-Pin SC70-5

5-Pin SOT23-5

8-Pin Small Outline

8-Pin MSOP

14-Pin Small Outline

14-Pin TSSOP

Industrial

−40˚C to +85˚C

LPV321M7

LPV321M7X

LPV321M5

LPV321M5X

LPV358M

LPV358MX

LPV358MM

LPV358MMX

LPV324M

LPV324MX

LPV324MT

LPV324MTX

A19

A27A

LPV358M

P358

LPV324M

LPV324MT

1k Units Tape and Reel

3k Units Tape and Reel

1k Units Tape and Reel

3k Units Tape and Reel

Rails

2.5k Units Tape and Reel

1k Units Tape and Reel

3.5k Units Tape and Reel

Rails

2.5k Units Tape and Reel

Rails

2.5k Units Tape and Reel

M08A

MUA08A

M14A

MTC14

MA05B

MAA05

Packaging Marking

Transport Media

NSC Drawing

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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)

Machine Model

Human Body Model

Differential Input Voltage

Supply Voltage (V

–V

−

)

Output Short Circuit to V

Soldering Information

Infrared or Convection (20 sec)

Storage Temp. Range

235˚C

−65˚C to 150˚C

−

Junction Temp. (T

, max) (Note 5)

150˚C

Operating Ratings

(Note 1)

Supply Voltage

Temperature Range

Thermal Resistance (θ

5-pin SC70-5

5-pin SOT23-5

8-Pin SOIC

8-Pin MSOP

14-Pin SOIC

14-Pin TSSOP

)(Note

2.7V to 5V

−40˚C≤T

≤85˚C

10)

478˚C/W

265˚C/W

190˚C/W

235˚C/W

145˚C/W

155˚C/W

100V

2000V

Supply Voltage

5.5V

(Note 3)

(Note 4)

2.7V DC Electrical Characteristics

Unless otherwise specified, all limits guaranteed for T

Symbol

TCV

CMRR

PSRR

Parameter

Input Offset Voltage

Input Offset Voltage Average

Drift

Input Bias Current

Input Offset Current

Common Mode Rejection Ratio

Power Supply Rejection Ratio

Input Common-Mode Voltage

Range

≤

1.7V

2.7V

≤

= 1V, V

= 1V

For CMRR

≥

50dB

= 25˚C, V

= 2.7V, V

−

= 0V, V

= 1.0V, V

= V

/2 and R

Typ

(Note 6)

1.2

1.7

0.6

−0.2

1.9

1.7

-100

180

Limit

(Note 7)

1 MΩ.

Units

max

µV/˚C

max

min

max

min

max

µA

max

µA

max

µA

max

Conditions

Output Swing

= 100kΩ to 1.35V

-3

Supply Current

LPV321

LPV358

Both amplifiers

LPV324

All four amplifiers

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2.7V AC Electrical Characteristics

Unless otherwise specified, all limits guaranteed for T

Symbol

GBWP

Parameter

Gain-Bandwidth Product

Phase Margin

Gain Margin

Input-Referred Voltage Noise

Input-Referred Current Noise

f = 1 kHz

= 25˚C, V

= 2.7V, V

−

= 0V, V

= 1.0V, V

= V

/2 and R

Typ

(Note 6)

112

178

0.50

Limit

(Note 7)

1 MΩ.

Units

KHz

Deg

Conditions

= 22 pF

5V DC Electrical Characteristics

Unless otherwise specified, all limits guaranteed for T

Boldface

limits apply at the temperature extremes.

Symbol

TCV

CMRR

PSRR

Parameter

Input Offset Voltage

Input Offset Voltage Average

Drift

Input Bias Current

Input Offset Current

Common Mode Rejection Ratio

Power Supply Rejection Ratio

Input Common-Mode Voltage

Range

≤

2.7V

≤

= 1V, V

= 1V

For CMRR

≥

50dB

= 25˚C, V

= 5V, V

−

= 0V, V

= 2.0V, V

= V

/2 and R

Typ

(Note 6)

1.5

0.6

−0.2

4.2

−100

−200

180

220

Limit

(Note 7)

1 MΩ.

Units

max

µV/˚C

max

min

max

V/mV

min

max

min

µA

max

µA

max

µA

max

Conditions

Large Signal Voltage Gain

(Note 8)

Output Swing

= 100kΩ

= 100kΩ to 2.5V

100

−3.5

Output Short Circuit Current

Sourcing, V

= 0V

Sinking, V

= 5V

Supply Current

LPV321

LPV358

Both amplifiers

LPV324

All four amplifiers

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5V AC Electrical Characteristics

Unless otherwise specified, all limits guaranteed for T

Boldface

limits apply at the temperature extremes.

Symbol

GBWP

Slew Rate

Gain-Bandwidth Product

Phase Margin

Gain Margin

Input-Referred Voltage Noise

Input-Referred Current Noise

f = 1 kHz,

f = 1 kHz

Parameter

(Note 9)

= 22 pF

= 25˚C, V

= 5V, V

−

= 0V, V

= 2.0V, V

= V

/2 and R

Typ

(Note 6)

0.1

152

146

0.30

Limit

(Note 7)

1 MΩ.

Units

V/µs

KHz

Deg

Conditions

Note 1:

Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is in-

tended 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, 1.5 kΩ in series with 100 pF. Machine model, 0Ω in series with 200 pF.

Note 3:

Shorting output to V

will adversely affect reliability.

Note 4:

Shorting output to V

will adversely affect reliability.

Note 5:

The maximum power dissipation is a function of T

J(max)

, and T

. The maximum allowable power dissipation at any ambient temperature is

= (T

J(max)

–T

)/θ

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

Note 6:

Typical values represent the most likely parametric norm.

Note 7:

All limits are guaranteed by testing or statistical analysis.

Note 8:

is connected to V

. The output voltage is 0.5V

≤

4.5V.

Note 9:

Connected as voltage follower with 3V step input. Number specified is the slower of the positive and negative slew rates.

Note 10:

All numbers are typical, and apply for packages soldered directly onto a PC board in still air.

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