NSC LM9044VX, LM9044V Datasheet

TL/H/6744

LM9044 Lambda Sensor Interface Amplifier

February 1995

LM9044 Lambda Sensor Interface Amplifier

General Description

The LM9044 is a precision differential amplifier specifically
designed for operation in the automotive environment. Gain
accuracy is guaranteed over the entire automotive tempera­ture range (

b

40§Ctoa125§C) and is factory trimmed prior
to package assembly. The input circuitry has been specifi­cally designed to reject common-mode signals as much as
3V below ground on a single positive power supply. This
facilitates the use of sensors which are grounded at the
engine block while the LM9044 itself is grounded at chassis
potential. An external capacitor sets the maximum operating
frequency of the amplifier, thereby filtering high frequency
transients. Both inputs are protected against accidental
shorting to the battery and against load dump transients.
The input impedance is typically 1 MX.

The output op amp is capable of driving capacitive loads
and is fully protected. Also, internal circuitry has been pro-

vided to detect open circuit conditions on either or both in­puts and force the output to a ‘‘home’’ position (a ratio of
the external reference voltage).

Features

Y

Normal circuit operation guaranteed with inputs up to
3V below ground on a single supply

Y

Gain factory trimmed and guaranteed over temperature
(

g

3% of full-scale fromb40§Ctoa125§C)

Y

Low power consumption (typically 1 mA)

Y

Fully protected inputs

Y

Input open circuit detection

Y

Operation guaranteed over the entire automotive tem­perature range (

b

40§Ctoa125§C)

Y

Single supply operation

Schematic and Connection Diagrams

TL/H/6744– 1

Plastic Chip Carrier Package

*Pins 1, 3, 4, 6, 8, 9, 10, 11, 13, 14, 16, 18, 19 are
trim pins and should be left floating.

TL/H/6744– 6

Top View

Order Number LM9044V

See NS Package Number V20A

C

1995 National Semiconductor Corporation RRD-B30M115/Printed in U. S. A.

Absolute Maximum Ratings

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

V

CC

Supply Voltage (RV

CC

e

15 kX)

g

60V

V

REF

Supply Voltage

b

0.3V toa6V

DC Input Voltage (Either Input)

b

3V toa16V

Input Transients (Note 1)

g

60V

Power Dissipation (see Note 6) 1350 mW

Output Short Circuit Duration Indefinite

Operating Temperature Range

b

40§Ctoa125§C

Storage Temperature Range

b

65§Ctoa150§C

Soldering Information

Plastic Chip Carrier Package
Vapor Phase (60 seconds) 215

§

C

Infrared (15 seconds) 220

§

C

See AN-450 ‘‘Surface Mounting Methods and Their Effect
on Product Reliability’’ for other methods of soldering sur­face mount devices.

Electrical Characteristics V

CC

e

12V, V

REF

e

5V,b40§CsT

A

s

125§C unless otherwise noted

Parameter Conditions

(Note 2) (Note 3)

Units

Min Typ Max Min Typ Max

Differential Voltage Gain V

DIF

e

0.5V 4.41 4.50 4.59 V/V

b

1VsV

CM

s

a

1V

V

DIF

e

0.5V,b3VsV

CM

s

a

1V 4.36 4.50 4.64 V/V

Gain Error (Note 5) 0sV

DIF

s

1V

b

2 0 2 %/FS

b

1VsV

CM

s

a

1V

0sV

DIF

s

1V

b

3 0 3 %/FS

b

3VsV

CM

s

a

1V

Differential Input Resistance osV

DIF

s

1V 0.95 1.20 3.00 MX

b

1VsV

CM

s

a

1V

0sV

DIF

s

1V 0.70 1.20 4.00 MX

b

3VsV

CM

s

a

1V

Non-Inverting Input Bias 0sV

DIF

s

1V

g

0.38g0.65 mA

Current

b

1VsV

CM

s

a

1V

0sV

DIF

s

1V

g

0.38g1.5 mA

b

3VsV

CM

s

a

1V

Inverting Input Bias Current 0sV

DIF

s

1V

b

25

b

65

b

100 mA

b

1VsV

CM

s

a

1V

0VsV

DIF

s

1V

b

45b150 mA

b

3VsV

CM

s

a

1V

VCCSupply Current V

CC

e

12V, RV

CC

e

15k 300 500 mA

V

REF

Supply Current 4.75VsV

REF

s

5.5V 0.5 1.0 mA

Common-Mode Voltage

b

11

b

31V

Range (Note 4)

DC Common-Mode Input Referred 50 60 dB
Rejection Ratio

b

1VsV

CM

s

a

1V

V

DIF

e

0.5V

Open Circuit Output Voltage One or Both Inputs 0.371 0.397 0.423 XV

REF

Open,b1VsV

CM

s

a

1V

b

3VsV

CM

s

a

1V 0.365 0.397 0.429 XV

REF

Short Circuit Output Current Output Grounded 1.0 2.7 5.0 mA

VCCPower Supply Rejection V

CC

e

12V, RV

CC

e

15K 50 65 dB

Ratio V

DIF

e

0.5V

V

REF

Power Supply V

REF

e

5V

DC

60 74 dB

Rejection Ratio V

DIF

e

0.5V

Note 1: This test is performed with a 1000 X source impedance.

Note 2: These parameters are guaranteed and 100% production tested.

Note 3: These parameters will be guaranteed but not 100% production tested.

Note 4: The LM9044 has been designed to common-mode to

b

3V, but production testing is only performed atg1V.

Note 5: Gain error is given as a percent of full-scale. Full-scale is defined as 1V at the input and 4.5V at the output.

Note 6: For operation in ambient temperatures above 25

§

C the device must be derated based on a maximum junction temperature of 150§C and a thermal

resistance of 93

§

C/W junction to ambient.

2