LM4041CEM3X-ADJ/NOPB [TI]

LM4041-N/LM4041-N-Q1 Precision Micropower Shunt Voltage Reference; LM4041 -N / LM4041 -N -Q1精密微功耗并联型电压基准


型号：	LM4041CEM3X-ADJ/NOPB
厂家：	TEXAS INSTRUMENTS
描述：	LM4041-N/LM4041-N-Q1 Precision Micropower Shunt Voltage Reference LM4041 -N / LM4041 -N -Q1精密微功耗并联型电压基准电源电路参考电压源光电二极管
文件：	总34页 (文件大小：1329K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

LM4041-N, LM4041-N-Q1

www.ti.com

SNOS641F –OCTOBER 1999–REVISED JULY 2013

LM4041-N/LM4041-N-Q1 Precision Micropower Shunt Voltage Reference

Check for Samples: LM4041-N, LM4041-N-Q1

FEATURES

DESCRIPTION

Ideal for space critical applications, the LM4041-N

•

Available in Standard, AEC Q-100 Grade 1

(Extended Temp. Range) and Grade 3

(Industrial Temp. Range) Qualified Versions

(SOT-23 only)

precision voltage reference is available in the sub-

miniature SC70 and SOT-23 surface-mount

packages. The LM4041-N's advanced design

eliminates the need for an external stabilizing

capacitor while ensuring stability with any capacitive

load, thus making the LM4041-N easy to use. Further

reducing design effort is the availability of a fixed

(1.225V) and adjustable reverse breakdown voltage.

The minimum operating current is 60 μA for the

LM4041-N 1.2 and the LM4041-N ADJ. Both versions

have a maximum operating current of 12 mA.

•

Small Packages: SOT-23, TO-92, and SC70

No Output Capacitor Required

Tolerates Capacitive Loads

Reverse Breakdown Voltage Options of 1.225V

and Adjustable

APPLICATIONS

The LM4041-N utilizes fuse and zener-zap reverse

breakdown or reference voltage trim during wafer sort

to ensure that the prime parts have an accuracy of

better than ±0.1% (A grade) at 25°C. Bandgap

reference temperature drift curvature correction and

low dynamic impedance ensure stable reverse

breakdown voltage accuracy over a wide range of

operating temperatures and currents.

•

Portable, Battery-Powered Equipment

Data Acquisition Systems

Instrumentation

Process Control

Energy Management

Automotive

Precision Audio Components

Key Specifications (LM4041-N/LM4041-N-Q1 1.2)

Output voltage tolerance (A grade, 25°C)

±0.1%(max)

Low output noise (10 Hz to 10kHz)

20μV_rms

Wide operating current range

60μA to 12mA

−40°C to +85°C

−40°C to +125°C

100 ppm/°C (max)

Industrial temperature range (LM4041A/B-N, LM4041-N-Q1A/Q1B)

Extended temperature range (LM4041C/D/E-N, LM4041-N-Q1C/Q1D/Q1E)

Low temperature coefficient

Connection Diagrams

*This pin must be left floating or connected to pin 2.

Figure 1. SOT-23 - Top View

See Package Number DBZ0003A

(JEDEC Registration TO-236AB)

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.

All trademarks are the property of their respective owners.

PRODUCTION DATA information is current as of publication date.

Products conform to specifications per the terms of the Texas

Instruments standard warranty. Production processing does not

necessarily include testing of all parameters.

LM4041-N, LM4041-N-Q1

SNOS641F –OCTOBER 1999–REVISED JULY 2013

www.ti.com

N/C

N/C*

N/C

ADJ

*This pin must be left floating or connected to pin 1.

Figure 2. SC70 - Top View

See Package Number DCK0005A

Figure 3. TO-92

Bottom View

See Package Number LP0003A

These devices have limited built-in ESD protection. The leads should be shorted together or the device placed in conductive foam

during storage or handling to prevent electrostatic damage to the MOS gates.

Absolute Maximum Ratings⁽¹⁾⁽²⁾

Reverse Current

20 mA

10 mA

Forward Current

Maximum Output Voltage (LM4041-N ADJ, LM4041-N-Q1 ADJ)

Power Dissipation (T_A= 25°C)⁽³⁾

15V

DBZ Package

LP Package

306 mW

550 mW

241mW

−65°C to +150°C

+215°C

DCK Package

Storage Temperature

Lead Temperature

DBZ Packages

LP Package

Vapor phase (60 seconds)

Infrared (15 seconds)

Soldering (10 seconds)

Human Body Model⁽⁴⁾

Machine Model⁽⁴⁾

+220°C

+260°C

ESD Susceptibility

2 kV

200V

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

SNOA472.

(1) Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for

which the device is functional, but do not ensure specific performance limits. For ensured specifications and test conditions, see the

Electrical Characteristics. The ensured specifications apply only for the test conditions listed. Some performance characteristics may

degrade when the device is not operated under the listed test conditions.

(2) If Military/Aerospace specified devices are required, please contact the TI Sales Office/ Distributors for availability and specifications.

(3) The maximum power dissipation must be derated at elevated temperatures and is dictated by T_Jmax(maximum junction temperature),

θ_JA(junction to ambient thermal resistance), and T_A(ambient temperature). The maximum allowable power dissipation at any

temperature is PD_max= (T_Jmax− T_A)/θ_JAor the number given in the Absolute Maximum Ratings, whichever is lower. For the LM4041-N,

T_Jmax= 125°C, and the typical thermal resistance (θ_JA), when board mounted, is 326°C/W for the SOT-23 package, 415°C/W for the

SC70 package and 180°C/W with 0.4″ lead length and 170°C/W with 0.125″ lead length for the TO-92 package.

(4) The human body model is a 100 pF capacitor discharged through a 1.5 kΩ resistor into each pin. The machine model is a 200 pF

capacitor discharged directly into each pin. All pins are rated at 2kV for Human Body Model, but the feedback pin which is rated at 1kV.

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Product Folder Links: LM4041-N, LM4041-N-Q1

LM4041-N, LM4041-N-Q1

www.ti.com

SNOS641F –OCTOBER 1999–REVISED JULY 2013

Operating Ratings⁽¹⁾⁽²⁾

Temperature Range

(T_min≤ T_A≤ T_max

)

Industrial Temperature Range

Extended Temperature Range

Reverse Current

−40°C ≤ T_A≤ +85°C

−40°C ≤ T_A≤ +125°C

60 μA to 12 mA

LM4041-N 1.2, LM4041-N-Q1 1.2

LM4041-N ADJ, LM4041-N-Q1 ADJ

60 μA to 12 mA

Output Voltage Range

1.24V to 10V

(1) Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for

which the device is functional, but do not ensure specific performance limits. For ensured specifications and test conditions, see the

Electrical Characteristics. The ensured specifications apply only for the test conditions listed. Some performance characteristics may

degrade when the device is not operated under the listed test conditions.

(2) The maximum power dissipation must be derated at elevated temperatures and is dictated by T_Jmax(maximum junction temperature),

θ_JA(junction to ambient thermal resistance), and T_A(ambient temperature). The maximum allowable power dissipation at any

temperature is PD_max= (T_Jmax− T_A)/θ_JAor the number given in the Absolute Maximum Ratings, whichever is lower. For the LM4041-N,

T_Jmax= 125°C, and the typical thermal resistance (θ_JA), when board mounted, is 326°C/W for the SOT-23 package, 415°C/W for the

SC70 package and 180°C/W with 0.4″ lead length and 170°C/W with 0.125″ lead length for the TO-92 package.

LM4041-N/LM4041-N-Q1 1.2 Electrical Characteristics (Industrial Temperature Range)

Boldface limits apply for T_A= T_J= T_MINto T_MAX; all other limits T_A= T_J= 25°C. The grades A and B designate initial

Reverse Breakdown Voltage tolerances of ±0.1% and ±0.2%, respectively.

Symbol

Parameter

Conditions

Typical⁽¹⁾

LM4041AIM3

LM4041QAIM3

LM4041AIM3

LM4041AIZ

Limits⁽²⁾

LM4041BIM3

LM4041QBIM3

LM4041BIZ

LM4041BIM7

Limits⁽²⁾

Units

(Limit)

V_R

Reverse Breakdown Voltage

I_R= 100 μA

1.225

Reverse Breakdown Voltage

Tolerance⁽³⁾

I_R= 100 μA

±1.2

±2.4

mV (max)

μA

±9.2

±10.4

I_RMIN

Minimum Operating Current

μA (max)

ppm/°C

ΔV_R/ΔT Average Reverse Breakdown

Voltage Temperature

I_R= 10 mA

I_R= 1 mA

I_R= 100 μA

±20

±15

±100

ppm/°C (max)

ppm/°C

Coefficient⁽³⁾

(1) Typicals are at T_J= 25°C and represent most likely parametric norm.

(2) Limits are 100% production tested at 25°C. Limits over temperature are ensured through correlation using Statistical Quality Control

(SQC) methods. The limits are used to calculate AOQL.

(3) The boldface (over-temperature) limit for Reverse Breakdown Voltage Tolerance is defined as the room temperature Reverse

Breakdown Voltage Tolerance ±[(ΔV_R↱ΔT)(max ΔT)(V_R)]. Where, ΔV_R/ΔT is the V_Rtemperature coefficient, maxΔT is the maximum

difference in temperature from the reference point of 25 °C to T _MAXor T_MIN, and V_Ris the reverse breakdown voltage. The total over-

temperature tolerance for the different grades in the industrial temperature range where maxΔT=65°C is shown below:

A-grade: ±0.75% = ±0.1% ±100 ppm/°C × 65°C

B-grade: ±0.85% = ±0.2% ±100 ppm/°C × 65°C

C-grade: ±1.15% = ±0.5% ±100 ppm/°C × 65°C

D-grade: ±1.98% = ±1.0% ±150 ppm/°C × 65°C

E-grade: ±2.98% = ±2.0% ±150 ppm/°C × 65°C

The total over-temperature tolerance for the different grades in the extended temperature range where max ΔT = 100 °C is shown

below:

B-grade: ±1.2% = ±0.2% ±100 ppm/°C × 100°C

C-grade: ±1.5% = ±0.5% ±100 ppm/°C × 100°C

D-grade: ±2.5% = ±1.0% ±150 ppm/°C × 100°C

E-grade: ±4.5% = ±2.0% ±150 ppm/°C × 100°C

Therefore, as an example, the A-grade LM4041-N 1.2 has an over-temperature Reverse Breakdown Voltage tolerance of ±1.2V × 0.75%

= ±9.2 mV.

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Product Folder Links: LM4041-N, LM4041-N-Q1

LM4041-N, LM4041-N-Q1

SNOS641F –OCTOBER 1999–REVISED JULY 2013

www.ti.com

LM4041-N/LM4041-N-Q1 1.2 Electrical Characteristics (Industrial Temperature

Range) (continued)

Boldface limits apply for T_A= T_J= T_MINto T_MAX; all other limits T_A= T_J= 25°C. The grades A and B designate initial

Reverse Breakdown Voltage tolerances of ±0.1% and ±0.2%, respectively.

Symbol

Parameter

Conditions

Typical⁽¹⁾

LM4041AIM3

LM4041QAIM3

LM4041AIM3

LM4041AIZ

Limits⁽²⁾

LM4041BIM3

LM4041QBIM3

LM4041BIZ

LM4041BIM7

Limits⁽²⁾

Units

(Limit)

ΔV_R/ΔI_RReverse Breakdown Voltage

Change with Operating

_RMIN≤ I_R≤ 1 mA

0.7

4.0

mV (max)

1.5

Current Change⁽⁴⁾

2.0

1 mA ≤ I_R≤ 12 mA

6.0

mV (max)

8.0

Z_R

Reverse Dynamic Impedance

Wideband Noise

I_R= 1 mA, f = 120 Hz,

I_AC= 0.1 I_R

0.5

1.5

Ω (max)

μV_rms

e_N

I_R= 100 μA

10 Hz ≤ f ≤ 10 kHz

ΔV_R

Reverse Breakdown Voltage

Long Term Stability

t = 1000 hrs

T = 25°C ±0.1°C

I_R= 100 μA

120

ppm

V_HYST

Thermal Hysteresis⁽⁵⁾

ΔT = −40°C to

0.08

+125°C

(4) Load regulation is measured on pulse basis from no load to the specified load current. Ouput changes due to die temperature change

must be taken into account separately.-

(5) Thermal hysteresis is defined as the difference in voltage measured at +25°C after cycling to temperature -40°C and the 25°C

measurement after cycling to temperature +125°C.

Submit Documentation Feedback

Product Folder Links: LM4041-N, LM4041-N-Q1

LM4041-N, LM4041-N-Q1

www.ti.com

SNOS641F –OCTOBER 1999–REVISED JULY 2013

LM4041-N/LM4041-N-Q1 1.2 Electrical Characteristics (Industrial Temperature Range)

Boldface limits apply for T_A= T_J= T_MINto T_MAX; all other limits T_A= T_J= 25°C. The grades C, D and E designate initial

Reverse Breakdown Voltage tolerances of ±0.5%, ±1.0% and ±2.0%, respectively.

Symbol

Parameter

Conditions

Typical⁽¹⁾

1.225

LM4041CIM3

LM4041QCIM3 LM4041QDIM3 LM4041QEIM3

LM4041CIZ

LM4041CIM7

Limits⁽²⁾

LM4041DIM3

LM4041EIM3

Units

(Limit)

LM4041DIZ

LM4041DIM7

Limits⁽²⁾

LM4041EIZ

LM4041EIM7

Limits⁽²⁾

V_R

Reverse Breakdown

Voltage

I_R= 100 μA

Reverse Breakdown

Voltage Tolerance⁽³⁾

I_R= 100 μA

±6

±12

±25

mV (max)

μA

±14

±24

±36

I_RMINMinimum Operating

Current

μA (max)

ppm/°C

ppm/°C (max)

ppm/°C

ΔV_R/ΔT V_RTemperature

I_R= 10 mA

I_R= 1 mA

I_R= 100 μA

±20

±15

0.7

Coefficient⁽³⁾

±100

±150

ΔV_R/ΔI_RReverse Breakdown

Voltage Change with

Operating Current

Change⁽⁴⁾

I_RMIN≤ I_R≤ 1 mA

1.5

2.0

mV (max)

2.0

2.5

1 mA ≤ I_R≤ 12 mA

2.5

6.0

8.0

mV (max)

8.0

10.0

Z_R

Reverse Dynamic

Impedance

I_R= 1 mA, f = 120

I_AC= 0.1 I_R

0.5

Ω(max)

1.5

2.0

e_N

Wideband Noise

I_R= 100 μA

μV_rms

ppm

10 Hz ≤ f ≤ 10 kHz

ΔV_R

Reverse Breakdown

Voltage Long Term

Stability

t = 1000 hrs

T = 25°C ±0.1°C

I_R= 100 μA

120

V_HYST

Thermal Hysteresis⁽⁵⁾ΔT = −40°C to

0.08

+125°C

(1) Typicals are at T_J= 25°C and represent most likely parametric norm.

(2) Limits are 100% production tested at 25°C. Limits over temperature are ensured through correlation using Statistical Quality Control

(SQC) methods. The limits are used to calculate AOQL.

(3) The boldface (over-temperature) limit for Reverse Breakdown Voltage Tolerance is defined as the room temperature Reverse

Breakdown Voltage Tolerance ±[(ΔV_R↱ΔT)(max ΔT)(V_R)]. Where, ΔV_R/ΔT is the V_Rtemperature coefficient, maxΔT is the maximum

difference in temperature from the reference point of 25 °C to T _MAXor T_MIN, and V_Ris the reverse breakdown voltage. The total over-

temperature tolerance for the different grades in the industrial temperature range where maxΔT=65°C is shown below:

A-grade: ±0.75% = ±0.1% ±100 ppm/°C × 65°C

B-grade: ±0.85% = ±0.2% ±100 ppm/°C × 65°C

C-grade: ±1.15% = ±0.5% ±100 ppm/°C × 65°C

D-grade: ±1.98% = ±1.0% ±150 ppm/°C × 65°C

E-grade: ±2.98% = ±2.0% ±150 ppm/°C × 65°C

The total over-temperature tolerance for the different grades in the extended temperature range where max ΔT = 100 °C is shown

below:

B-grade: ±1.2% = ±0.2% ±100 ppm/°C × 100°C

C-grade: ±1.5% = ±0.5% ±100 ppm/°C × 100°C

D-grade: ±2.5% = ±1.0% ±150 ppm/°C × 100°C

E-grade: ±4.5% = ±2.0% ±150 ppm/°C × 100°C

Therefore, as an example, the A-grade LM4041-N 1.2 has an over-temperature Reverse Breakdown Voltage tolerance of ±1.2V × 0.75%

= ±9.2 mV.

(4) Load regulation is measured on pulse basis from no load to the specified load current. Ouput changes due to die temperature change

must be taken into account separately.-

(5) Thermal hysteresis is defined as the difference in voltage measured at +25°C after cycling to temperature -40°C and the 25°C

measurement after cycling to temperature +125°C.

Submit Documentation Feedback

Product Folder Links: LM4041-N, LM4041-N-Q1

LM4041-N, LM4041-N-Q1

SNOS641F –OCTOBER 1999–REVISED JULY 2013

www.ti.com

LM4041-N/LM4041-N-Q1 1.2 Electrical Characteristics (Extended Temperature Range)

Boldface limits apply for T_A= T_J= T_MINto T_MAX; all other limits T_A= T_J= 25°C. The grades C, D and E designate initial

Reverse Breakdown Voltage tolerance of ±0.5%, ±1.0% and ±2.0% respectively.

Symbol

Parameter

Conditions

Typical⁽¹⁾

LM4041CEM3

LM4041DEM3

LM4041EEM3

Units

LM4041QCEM3 LM4041QDEM3 LM4041QEEM3

(Limit)

Limits⁽²⁾

V_R

Reverse Breakdown

Voltage

I_R= 100 μA

1.225

Reverse Breakdown

Voltage Error⁽³⁾

I_R= 100 μA

±6

±12

±25

mV (max)

μA

±18.4

±31

±43

I_RMIN

Minimum Operating

Current

μA (max)

ppm/°C

ΔV_R/ΔT VR Temperature

I_R= 10 mA

I_R= 1 mA

±20

±15

Coefficient⁽³⁾

ppm/°C

(max)

±100

±150

I_R= 100 μA

±15

0.7

ppm/°C

ΔV_R/ΔI_RReverse Breakdown

Change with

I_RMIN≤ I_R≤ 1.0 mA

1.5

2.0

mV (max)

Current⁽⁴⁾

2.0

2.5

1 mA ≤ I_R≤ 12 mA

2.5

0.5

6.0

8.0

mV (max)

8.0

10.0

Z_R

e_N

Reverse Dynamic

Impedance

I_R= 1 mA, f = 120

Hz,

I_AC= 0.1 I_R

Ω (max)

1.5

2.0

Noise Voltage

I_R= 100 μA

10 Hz ≤ f ≤ 10 kHz

μV_rms

ppm

ΔV_R

Long Term Stability

(Non-Cumulative)

t = 1000 hrs

T = 25°C ±0.1°C

I_R= 100 μA

120

0.08

V_HYST

Thermal Hysteresis⁽⁵⁾ΔT = −40°C to

+125°C

(1) Typicals are at T_J= 25°C and represent most likely parametric norm.

(2) Limits are 100% production tested at 25°C. Limits over temperature are ensured through correlation using Statistical Quality Control

(SQC) methods. The limits are used to calculate AOQL.

(3) The boldface (over-temperature) limit for Reverse Breakdown Voltage Tolerance is defined as the room temperature Reverse

Breakdown Voltage Tolerance ±[(ΔV_R↱ΔT)(max ΔT)(V_R)]. Where, ΔV_R/ΔT is the V_Rtemperature coefficient, maxΔT is the maximum

difference in temperature from the reference point of 25 °C to T _MAXor T_MIN, and V_Ris the reverse breakdown voltage. The total over-

temperature tolerance for the different grades in the industrial temperature range where maxΔT=65°C is shown below:

A-grade: ±0.75% = ±0.1% ±100 ppm/°C × 65°C

B-grade: ±0.85% = ±0.2% ±100 ppm/°C × 65°C

C-grade: ±1.15% = ±0.5% ±100 ppm/°C × 65°C

D-grade: ±1.98% = ±1.0% ±150 ppm/°C × 65°C

E-grade: ±2.98% = ±2.0% ±150 ppm/°C × 65°C

The total over-temperature tolerance for the different grades in the extended temperature range where max ΔT = 100 °C is shown

below:

B-grade: ±1.2% = ±0.2% ±100 ppm/°C × 100°C

C-grade: ±1.5% = ±0.5% ±100 ppm/°C × 100°C

D-grade: ±2.5% = ±1.0% ±150 ppm/°C × 100°C

E-grade: ±4.5% = ±2.0% ±150 ppm/°C × 100°C

Therefore, as an example, the A-grade LM4041-N 1.2 has an over-temperature Reverse Breakdown Voltage tolerance of ±1.2V × 0.75%

= ±9.2 mV.

(4) Load regulation is measured on pulse basis from no load to the specified load current. Ouput changes due to die temperature change

must be taken into account separately.-

(5) Thermal hysteresis is defined as the difference in voltage measured at +25°C after cycling to temperature -40°C and the 25°C

measurement after cycling to temperature +125°C.

Submit Documentation Feedback

Product Folder Links: LM4041-N, LM4041-N-Q1

LM4041-N, LM4041-N-Q1

www.ti.com

SNOS641F –OCTOBER 1999–REVISED JULY 2013

LM4041-N/LM4041-N-Q1 ADJ (Adjustable) Electrical Characteristics (Industrial Temperature

Range)

Boldface limits apply for T_A= T_J= T_MINto T_MAX; all other limits T_J= 25°C unless otherwise specified (SOT-23, see⁽¹⁾),

I_RMIN≤ I_R≤ 12 mA, V_REF≤ V_OUT≤ 10V. The grades C and D designate initial Reference Voltage Tolerances of ±0.5% and

±1%, respectively for V_OUT= 5V.

Symbol

Parameter

Conditions

Typical⁽²⁾

LM4041CIM3

LM4041QCIM3

LM4041CIZ

LM4041DIM3

LM4041QDIM3

LM4041DIZ

Units

(Limit)

LM4041CIM7

LM4041DIM7

(3)

V_REF

Reference Voltage

I_R= 100 μA, V_OUT= 5V

1.233

mV (max)

μA

Reference Voltage

Tolerance⁽⁴⁾

±6.2

±12

±14

±24

I_RMIN

Minimum Operating

Current

μA (max)

ΔV_REF/ΔI_RReference Voltage

Change with Operating

Current Change⁽⁵⁾

_RMIN≤ I_R≤ 1 mA

0.7

SOT-23: V_OUT≥ 1.6V⁽⁶⁾

1.5

2.0

mV (max)

2.0

2.5

1 mA ≤ I_R≤ 12 mA

SOT-23: V_OUT≥ 1.6V⁽⁶⁾

mV (max)

mV/V

ΔV_REF/ΔV Reference Voltage

I_R= 1 mA

−1.55

Change with Output

Voltage Change

−2.0

−2.5

−3.0

mV/V (max)

I_FB

Feedback Current

100

150

nA (max)

ppm/°C

120

200

ΔV_REF/ΔT Average Reference

Voltage Temperature

Coefficient⁽⁴⁾

V_OUT

5V,

I_R

10 mA

1 mA

±100

±150

ppm/°C (max)

ppm/°C

I_R= 100 μA

Z_OUT

Dynamic Output

Impedance

I_R= 1 mA, f = 120 Hz,

I_AC= 0.1 I_R

V_OUT= V_REF

0.3

V_OUT

= 10V

e_N

Wideband Noise

I_R= 100

V_OUT= V_REF

μV_rms

μA

10 Hz ≤ f ≤ 10 kHz

ΔV_REF

Reference Voltage Long

Term Stability

Thermal Hysteresis⁽⁷⁾

t = 1000 hrs, I_R= 100 μA,

T = 25°C ±0.1°C

120

ppm

V_HYST

ΔT = −40°C to +125°C

0.08

(1) When V_OUT≤ 1.6V, the LM4041-N ADJ in the SOT-23 package must operate at reduced I_R. This is caused by the series resistance of

the die attach between the die (-) output and the package (-) output pin. See the Output Saturation (SOT-23 only) curve in the Typical

Performance Characteristics section.

(2) Typicals are at T_J= 25°C and represent most likely parametric norm.

(3) Limits are 100% production tested at 25°C. Limits over temperature are ensured through correlation using Statistical Quality Control

(SQC) methods. The limits are used to calculate AOQL.

(4) Reference voltage and temperature coefficient will change with output voltage. See Typical Performance Characteristics curves.

(5) Load regulation is measured on pulse basis from no load to the specified load current. Ouput changes due to die temperature change

must be taken into account separately.-

(6) When V_OUT≤ 1.6V, the LM4041-N ADJ in the SOT-23 package must operate at reduced I_R. This is caused by the series resistance of

the die attach between the die (-) output and the package (-) output pin. See the Output Saturation (SOT-23 only) curve in the Typical

Performance Characteristics section.

(7) Thermal hysteresis is defined as the difference in voltage measured at +25°C after cycling to temperature -40°C and the 25°C

measurement after cycling to temperature +125°C.

Submit Documentation Feedback

Product Folder Links: LM4041-N, LM4041-N-Q1

LM4041-N, LM4041-N-Q1

SNOS641F –OCTOBER 1999–REVISED JULY 2013

www.ti.com

LM4041-N/LM4041-N-Q1 ADJ (Adjustable) Electrical Characteristics (Extended Temperature

Range)

Boldface limits apply for T_A= T_J= T_MINto T_MAX; all other limits T_J= 25°C unless otherwise specified (SOT-23, see ⁽¹⁾), I_RMIN

≤ I_R≤ 12 mA, V_REF≤ V_OUT≤ 10V. The grades C and D designate initial Reference Voltage Tolerances of ±0.5% and ±1%,

respectively for V_OUT= 5V.

Symbol

Parameter

Conditions

Typical⁽²⁾

LM4041CEM3

LM4041DEM3

Units

(Limit)

LM4041QCEM3⁽³⁾LM4041QDEM3⁽³⁾

V_REF

Reference Voltage

I_R= 100 μA, V_OUT= 5V

1.233

Reference Voltage

Tolerance⁽⁴⁾

±6.2

±12

mV (max)

μA

±18

±30

I_RMIN

Minimum Operating

Current

0.7

μA (max)

ΔV_REF/ΔI_RReference Voltage

Change with Operating

Current Change⁽⁵⁾

I_RMIN≤ I_R≤ 1 mA

SOT-23: V_OUT≥ 1.6V⁽¹⁾

1.5

2.0

mV (max)

2.0

2.5

1 mA ≤ I_R≤ 12 mA

SOT-23: V_OUT≥ 1.6V⁽¹⁾

mV (max)

mV/V

ΔV_REF/ΔV Reference Voltage

I_R= 1 mA

−1.55

Change with Output

Voltage Change

−2.0

−3.0

−2.5

−4.0

mV/V (max)

I_FB

Feedback Current

100

150

nA (max)

ppm/°C

120

200

ΔV_REF/ΔT Average Reference

Voltage Temperature

Coefficient⁽⁴⁾

V_OUT= 5V,

I_R

ppm/°C

(max)

±100

±150

I_R= 100

ppm/°C

μA

Z_OUT

Dynamic Output

Impedance

I_R= 1 mA, f = 120 Hz,

I_AC= 0.1 I_R

V_OUT

V_REF

0.3

V_OUT

10V

e_N

Wideband Noise

I_R= 100 μA,

V_OUT

V_REF

μV_rms

10 Hz ≤ f ≤ 10 kHz

ΔV_REF

Reference Voltage Long

Term Stability

Thermal Hysteresis⁽⁶⁾

t = 1000 hrs, I_R= 100 μA,

T = 25°C ±0.1°C

120

ppm

V_HYST

ΔT = −40°C to +125°C

0.08

(1) When V_OUT≤ 1.6V, the LM4041-N ADJ in the SOT-23 package must operate at reduced I_R. This is caused by the series resistance of

the die attach between the die (-) output and the package (-) output pin. See the Output Saturation (SOT-23 only) curve in the Typical

Performance Characteristics section.

(2) Typicals are at T_J= 25°C and represent most likely parametric norm.

(3) Limits are 100% production tested at 25°C. Limits over temperature are ensured through correlation using Statistical Quality Control

(SQC) methods. The limits are used to calculate AOQL.

(4) Reference voltage and temperature coefficient will change with output voltage. See Typical Performance Characteristics curves.

(5) Load regulation is measured on pulse basis from no load to the specified load current. Ouput changes due to die temperature change

must be taken into account separately.-

(6) Thermal hysteresis is defined as the difference in voltage measured at +25°C after cycling to temperature -40°C and the 25°C

measurement after cycling to temperature +125°C.

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SNOS641F –OCTOBER 1999–REVISED JULY 2013

Typical Performance Characteristics

Output Impedance

Temperature Drift for Different

Average Temperature Coefficient

Frequency

Figure 4.

Figure 5.

Reverse Characteristics and

Minimum Operating Current

Noise Voltage

Figure 6.

Figure 7.

Start-Up

Characteristics

Figure 8.

Figure 9.

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Product Folder Links: LM4041-N, LM4041-N-Q1

LM4041-N, LM4041-N-Q1

SNOS641F –OCTOBER 1999–REVISED JULY 2013

www.ti.com

Typical Performance Characteristics (continued)

Reference Voltage

Output Voltage and Temperature

Reference Voltage

Temperature and Output Voltage

Figure 10.

Figure 11.

Feedback Current

Output Voltage and Temperature

Output Saturation

(SOT-23 Only)

Figure 12.

Figure 13.

Output Impedance

Frequency

Figure 14.

Figure 15.

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LM4041-N, LM4041-N-Q1

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SNOS641F –OCTOBER 1999–REVISED JULY 2013

Typical Performance Characteristics (continued)

Reverse Characteristics

Figure 16.

Large Signal Response

Figure 17.

Figure 18.

Figure 19.

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LM4041-N, LM4041-N-Q1

SNOS641F –OCTOBER 1999–REVISED JULY 2013

www.ti.com

Functional Block Diagram

*LM4041-N ADJ only

**LM4041-N 1.2 only

APPLICATIONS INFORMATION

The LM4041-N is a precision micro-power curvature-corrected bandgap shunt voltage reference. For space

critical applications, the LM4041-N is available in the sub-miniature SOT-23 and SC70 surface-mount package.

The LM4041-N has been designed for stable operation without the need of an external capacitor connected

between the “+” pin and the “−” pin. If, however, a bypass capacitor is used, the LM4041-N remains stable.

Design effort is further reduced with the choice of either a fixed 1.2V or an adjustable reverse breakdown

voltage. The minimum operating current is 60 μA for the LM4041-N 1.2 and the LM4041-N ADJ. Both versions

have a maximum operating current of 12 mA.

LM4041-Ns using the SOT-23 package have pin 3 connected as the (-) output through the package's die attach

interface. Therefore, the LM4041-N 1.2's pin 3 must be left floating or connected to pin 2 and the LM4041-N

ADJ's pin 3 is the (-) output.

LM4041-Ns using the SC70 package have pin 2 connected as the (−) output through the packages' die attach

interface. Therefore, the LM4041-N 1.2's pin 2 must be left floating or connected to pin 1, and the LM4041-N

ADJ's pin 2 is the (−) output.

The typical thermal hysteresis specification is defined as the change in +25°C voltage measured after thermal

cycling. The device is thermal cycled to temperature -40°C and then measured at 25°C. Next the device is

thermal cycled to temperature +125°C and again measured at 25°C. The resulting V_OUTdelta shift between the

25°C measurements is thermal hysteresis. Thermal hysteresis is common in precision references and is induced

by thermal-mechanical package stress. Changes in environmental storage temperature, operating temperature

and board mounting temperature are all factors that can contribute to thermal hysteresis.

In a conventional shunt regulator application (Figure 20), an external series resistor (R_S) is connected between

the supply voltage and the LM4041-N. R_Sdetermines the current that flows through the load (I_L) and the

LM4041-N (I_Q). Since load current and supply voltage may vary, R_Sshould be small enough to supply at least

the minimum acceptable I_Qto the LM4041-N even when the supply voltage is at its minimum and the load

current is at its maximum value. When the supply voltage is at its maximum and I_Lis at its minimum, R_Sshould

be large enough so that the current flowing through the LM4041-N is less than 12 mA.

R_Sshould be selected based on the supply voltage, (V_S), the desired load and operating current, (I_Land I_Q), and

the LM4041-N's reverse breakdown voltage, V_R.

The LM4041-N ADJ's output voltage can be adjusted to any value in the range of 1.24V through 10V. It is a

function of the internal reference voltage (V_REF) and the ratio of the external feedback resistors as shown in

Figure 21 . The output voltage is found using the equation

V_O= V_REF[(R2/R1) + 1]

where

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SNOS641F –OCTOBER 1999–REVISED JULY 2013

•

V_Ois the output voltage. The actual value of the internal V_REFis a function of V_O. The “corrected” V_REFis

determined by

(1)

V_REF= ΔV_O(ΔV_REF/ΔV_O) + V_Y

where

•

V_Y= 1.240 V

and

•

ΔV_O= (V_O− V_Y)

(2)

ΔV_REF/ΔV_Ois found in the Electrical Characteristics and is typically −1.55 mV/V. You can get a more accurate

indication of the output voltage by replacing the value of V_REFin Equation 1 with the value found using

Equation 2.

Note that the actual output voltage can deviate from that predicted using the typical value of ΔV_REF/ΔV_Oin

Equation 2: for C-grade parts, the worst-case ΔV_REF/ΔV_Ois −2.5 mV/V. For D-grade parts, the worst-case

ΔV_REF/ΔV_Ois −3.0 mV/V.

Typical Applications

Figure 20. Shunt Regulator

V_O= V_REF[(R2/R1) + 1]

Figure 21. Adjustable Shunt Regulator

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Product Folder Links: LM4041-N, LM4041-N-Q1

LM4041-N, LM4041-N-Q1

SNOS641F –OCTOBER 1999–REVISED JULY 2013

www.ti.com

Figure 22. Bounded amplifier reduces saturation-induced delays and can prevent succeeding stage

damage. Nominal clamping voltage is ±V_O(LM4041-N's reverse breakdown voltage) +2 diode V_F.

Figure 23. Voltage Level Detector

Figure 24. Voltage Level Detector

Figure 25. Fast Positive Clamp

2.4V + V_D1

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Product Folder Links: LM4041-N, LM4041-N-Q1

LM4041-N, LM4041-N-Q1

www.ti.com

SNOS641F –OCTOBER 1999–REVISED JULY 2013

Figure 26. Bidirectional Clamp ±2.4V

Figure 27. Bidirectional Adjustable

Clamp ±18V to ±2.4V

Figure 28. Bidirectional Adjustable

Clamp ±2.4V to ±6V

Submit Documentation Feedback

Product Folder Links: LM4041-N, LM4041-N-Q1

LM4041-N, LM4041-N-Q1

SNOS641F –OCTOBER 1999–REVISED JULY 2013

www.ti.com

Figure 29. Simple Floating Current Detector

*D1 can be any LED, V_F= 1.5V to 2.2V at 3 mA. D1 may act as an indicator. D1 will be on if I_THRESHOLDfalls below

the threshold current, except with I = 0.

Figure 30. Current Source

Figure 31. Precision Floating Current Detector

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LM4041-N, LM4041-N-Q1

www.ti.com

SNOS641F –OCTOBER 1999–REVISED JULY 2013

Figure 32. Precision 1 μA to 1 mA Current Sources

Submit Documentation Feedback

Product Folder Links: LM4041-N, LM4041-N-Q1

LM4041-N, LM4041-N-Q1

SNOS641F –OCTOBER 1999–REVISED JULY 2013

www.ti.com

REVISION HISTORY

Changes from Revision D (April 2013) to Revision E

Page

•

Changed layout of National Data Sheet to TI format .......................................................................................................... 16

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Product Folder Links: LM4041-N, LM4041-N-Q1

PACKAGE OPTION ADDENDUM

www.ti.com

10-Nov-2013

PACKAGING INFORMATION

Orderable Device

Status Package Type Package Pins Package

Eco Plan

Lead/Ball Finish

MSL Peak Temp

Op Temp (°C)

Device Marking

Samples

Drawing

Qty

1000

(1)

(2)

(6)

(3)

(4/5)

LM4041AIM3-1.2

NRND

ACTIVE

SOT-23

DBZ

TBD

Call TI

CU SN

Call TI

-40 to 85

R1A

LM4041AIM3-1.2/NOPB

DBZ

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041AIM3X-1.2/NOPB

LM4041AIZ-1.2/NOPB

ACTIVE

SOT-23

TO-92

DBZ

3000

1800

Green (RoHS

& no Sb/Br)

CU SN

Level-1-260C-UNLIM

N / A for Pkg Type

-40 to 85

R1A

Green (RoHS

& no Sb/Br)

SN | CU SN

4041A

IZ1.2

LM4041BIM3-1.2

NRND

SOT-23

DBZ

1000

TBD

Call TI

CU SN

Call TI

-40 to 85

R1B

LM4041BIM3-1.2/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041BIM3X-1.2/NOPB

ACTIVE

SOT-23

DBZ

3000

Green (RoHS

& no Sb/Br)

CU SN

Level-1-260C-UNLIM

-40 to 85

R1B

LM4041BIM7-1.2

NRND

SC70

DCK

1000

TBD

Call TI

CU SN

Call TI

-40 to 85

R1B

LM4041BIM7-1.2/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041BIM7X-1.2

NRND

SC70

DCK

3000

TBD

Call TI

CU SN

Call TI

-40 to 85

R1B

LM4041BIM7X-1.2/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041BIZ-1.2/NOPB

ACTIVE

TO-92

1800

Green (RoHS

& no Sb/Br)

SN | CU SN

N / A for Pkg Type

-40 to 85

4041B

IZ1.2

LM4041CEM3-1.2

NRND

SOT-23

DBZ

1000

TBD

Call TI

CU SN

Call TI

-40 to 125

R1C

LM4041CEM3-1.2/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041CEM3-ADJ

NRND

SOT-23

DBZ

1000

TBD

Call TI

CU SN

Call TI

-40 to 125

RAC

LM4041CEM3-ADJ/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041CEM3X-1.2/NOPB

ACTIVE

SOT-23

DBZ

3000

Green (RoHS

& no Sb/Br)

CU SN

Level-1-260C-UNLIM

-40 to 125

R1C

LM4041CEM3X-ADJ

NRND

SOT-23

DBZ

3000

TBD

Call TI

CU SN

Call TI

-40 to 125

RAC

LM4041CEM3X-ADJ/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041CIM3-1.2

NRND

SOT-23

DBZ

1000

TBD

Call TI

-40 to 85

R1C

Addendum-Page 1

PACKAGE OPTION ADDENDUM

www.ti.com

10-Nov-2013

Orderable Device

Status Package Type Package Pins Package

Eco Plan

Lead/Ball Finish

MSL Peak Temp

Op Temp (°C)

Device Marking

Samples

Drawing

Qty

(1)

(2)

(6)

(3)

(4/5)

LM4041CIM3-1.2/NOPB

ACTIVE

SOT-23

DBZ

1000

Green (RoHS

& no Sb/Br)

CU SN

Level-1-260C-UNLIM

-40 to 85

R1C

LM4041CIM3-ADJ

NRND

SOT-23

DBZ

1000

TBD

Call TI

CU SN

Call TI

-40 to 85

RAC

LM4041CIM3-ADJ/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041CIM3X-1.2

NRND

SOT-23

DBZ

3000

TBD

Call TI

CU SN

Call TI

-40 to 85

R1C

LM4041CIM3X-1.2/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041CIM3X-ADJ

NRND

SOT-23

DBZ

3000

TBD

Call TI

CU SN

Call TI

-40 to 85

RAC

LM4041CIM3X-ADJ/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041CIM7-1.2/NOPB

ACTIVE

SC70

DCK

1000

Green (RoHS

& no Sb/Br)

CU SN

Level-1-260C-UNLIM

-40 to 85

R1C

LM4041CIM7-ADJ

NRND

SC70

DCK

1000

TBD

Call TI

CU SN

Call TI

-40 to 85

RAC

LM4041CIM7-ADJ/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041CIM7X-1.2/NOPB

ACTIVE

SC70

DCK

3000

Green (RoHS

& no Sb/Br)

CU SN

Level-1-260C-UNLIM

-40 to 85

R1C

LM4041CIM7X-ADJ

NRND

SC70

DCK

3000

TBD

Call TI

CU SN

Call TI

-40 to 85

RAC

LM4041CIM7X-ADJ/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041CIZ-1.2/NOPB

LM4041CIZ-ADJ/NOPB

LM4041DEM3-1.2/NOPB

ACTIVE

TO-92

1800

1000

Green (RoHS

& no Sb/Br)

SN | CU SN

CU SN

N / A for Pkg Type

Level-1-260C-UNLIM

-40 to 85

-40 to 125

4041C

IZ1.2

Green (RoHS

& no Sb/Br)

4041C

IZADJ

SOT-23

DBZ

Green (RoHS

& no Sb/Br)

R1D

LM4041DEM3-ADJ

NRND

SOT-23

DBZ

1000

TBD

Call TI

CU SN

Call TI

-40 to 125

RAD

LM4041DEM3-ADJ/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041DEM3X-1.2/NOPB

LM4041DEM3X-ADJ/NOPB

LM4041DIM3-1.2

ACTIVE

NRND

SOT-23

DBZ

3000

1000

Green (RoHS

& no Sb/Br)

CU SN

Call TI

Level-1-260C-UNLIM

Call TI

-40 to 125

-40 to 85

R1D

RAD

R1D

Green (RoHS

& no Sb/Br)

TBD

Addendum-Page 2

PACKAGE OPTION ADDENDUM

www.ti.com

10-Nov-2013

Orderable Device

Status Package Type Package Pins Package

Eco Plan

Lead/Ball Finish

MSL Peak Temp

Op Temp (°C)

Device Marking

Samples

Drawing

Qty

(1)

(2)

(6)

(3)

(4/5)

LM4041DIM3-1.2/NOPB

ACTIVE

SOT-23

DBZ

1000

Green (RoHS

& no Sb/Br)

CU SN

Level-1-260C-UNLIM

-40 to 85

R1D

LM4041DIM3-ADJ

NRND

SOT-23

DBZ

1000

TBD

Call TI

CU SN

Call TI

-40 to 85

RAD

LM4041DIM3-ADJ/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041DIM3X-1.2

NRND

SOT-23

DBZ

3000

TBD

Call TI

CU SN

Call TI

-40 to 85

R1D

LM4041DIM3X-1.2/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041DIM3X-ADJ

NRND

SOT-23

DBZ

3000

TBD

Call TI

CU SN

Call TI

-40 to 85

RAD

LM4041DIM3X-ADJ/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041DIM7-1.2/NOPB

LM4041DIM7-ADJ/NOPB

LM4041DIM7X-1.2/NOPB

LM4041DIM7X-ADJ/NOPB

LM4041DIZ-1.2/NOPB

LM4041DIZ-ADJ/LFT1

LM4041DIZ-ADJ/NOPB

ACTIVE

SC70

TO-92

DCK

1000

3000

1800

2000

1800

Green (RoHS

& no Sb/Br)

CU SN

Level-1-260C-UNLIM

N / A for Pkg Type

-40 to 85

R1D

RAD

R1D

RAD

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

CU SN

Green (RoHS

& no Sb/Br)

CU SN

Green (RoHS

& no Sb/Br)

SN | CU SN

4041D

IZ1.2

Green (RoHS

& no Sb/Br)

(4040D ~ 4041D)

IZADJ

Green (RoHS

& no Sb/Br)

-40 to 85

4041D

IZADJ

LM4041EEM3-1.2

NRND

SOT-23

DBZ

1000

TBD

Call TI

CU SN

Call TI

-40 to 125

R1E

LM4041EEM3-1.2/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041EEM3X-1.2

NRND

SOT-23

DBZ

3000

TBD

Call TI

CU SN

Call TI

-40 to 125

R1E

LM4041EEM3X-1.2/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041EIM3-1.2

NRND

SOT-23

DBZ

1000

TBD

Call TI

CU SN

Call TI

-40 to 85

R1E

LM4041EIM3-1.2/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041EIM3X-1.2

NRND

SOT-23

DBZ

3000

TBD

Call TI

-40 to 85

R1E

Addendum-Page 3

PACKAGE OPTION ADDENDUM

www.ti.com

10-Nov-2013

Orderable Device

Status Package Type Package Pins Package

Eco Plan

Lead/Ball Finish

MSL Peak Temp

Op Temp (°C)

Device Marking

Samples

Drawing

Qty

(1)

(2)

(6)

(3)

(4/5)

LM4041EIM3X-1.2/NOPB

ACTIVE

SOT-23

DBZ

3000

Green (RoHS

& no Sb/Br)

CU SN

Level-1-260C-UNLIM

-40 to 85

R1E

LM4041EIM7-1.2

NRND

SC70

DCK

1000

TBD

Call TI

CU SN

Call TI

-40 to 85

R1E

LM4041EIM7-1.2/NOPB

ACTIVE

Green (RoHS

& no Sb/Br)

Level-1-260C-UNLIM

LM4041EIM7X-1.2/NOPB

LM4041QAIM3-1.2/NO

LM4041QAIM3X-1.2NO

LM4041QBIM3-1.2/NO

LM4041QBIM3X-1.2NO

LM4041QCEM3-1.2NO

LM4041QCEM3-ADJ/NO

LM4041QCEM3X-1.2NO

LM4041QCEM3X-ADJNO

LM4041QCIM3-1.2/NO

LM4041QCIM3-ADJ/NO

LM4041QCIM3X-1.2NO

LM4041QCIM3X-ADJNO

LM4041QDEM3-1.2/NO

LM4041QDEM3-ADJ/NO

ACTIVE

SC70

DCK

DBZ

3000

1000

3000

1000

3000

1000

3000

1000

3000

1000

Green (RoHS

& no Sb/Br)

CU SN

Level-1-260C-UNLIM

-40 to 85

-40 to 125

R1E

RQA

RQB

RQC

RZC

RQC

RZC

RQC

RZC

RQC

RZC

RQD

RZD

SOT-23

Green (RoHS

& no Sb/Br)

PREVIEW

ACTIVE

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

PREVIEW

ACTIVE

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

PREVIEW

ACTIVE

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

PREVIEW

ACTIVE

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

PREVIEW

ACTIVE

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

PREVIEW

Green (RoHS

& no Sb/Br)

Addendum-Page 4

PACKAGE OPTION ADDENDUM

www.ti.com

10-Nov-2013

Orderable Device

Status Package Type Package Pins Package

Eco Plan

Lead/Ball Finish

MSL Peak Temp

Op Temp (°C)

-40 to 125

Device Marking

Samples

Drawing

Qty

(1)

(2)

(6)

(3)

(4/5)

LM4041QDEM3X-1.2NO

LM4041QDEM3X-ADJNO

LM4041QDIM3-1.2/NO

LM4041QDIM3-ADJ/NO

LM4041QDIM3X-1.2NO

LM4041QDIM3X-ADJNO

LM4041QEEM3-1.2/NO

LM4041QEEM3X-1.2NO

LM4041QEIM3-1.2/NO

LM4041QEIM3X-1.2NO

PREVIEW

SOT-23

DBZ

3000

Green (RoHS

& no Sb/Br)

CU SN

Level-1-260C-UNLIM

RQD

RZD

RQD

RZD

RQD

RZD

RQE

PREVIEW

ACTIVE

DBZ

3000

1000

3000

1000

3000

1000

3000

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

PREVIEW

ACTIVE

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

Green (RoHS

& no Sb/Br)

ACTIVE

Green (RoHS

& no Sb/Br)

ACTIVE

Green (RoHS

& no Sb/Br)

PREVIEW

Green (RoHS

& no Sb/Br)

⁽¹⁾The marketing status values are defined as follows:

ACTIVE: Product device recommended for new designs.

LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect.

NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in a new design.

PREVIEW: Device has been announced but is not in production. Samples may or may not be available.

OBSOLETE: TI has discontinued the production of the device.

⁽²⁾Eco Plan - The planned eco-friendly classification: Pb-Free (RoHS), Pb-Free (RoHS Exempt), or Green (RoHS & no Sb/Br) - please check http://www.ti.com/productcontent for the latest availability

information and additional product content details.

TBD: The Pb-Free/Green conversion plan has not been defined.

Pb-Free (RoHS): TI's terms "Lead-Free" or "Pb-Free" mean semiconductor products that are compatible with the current RoHS requirements for all 6 substances, including the requirement that

lead not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered at high temperatures, TI Pb-Free products are suitable for use in specified lead-free processes.

Pb-Free (RoHS Exempt): This component has a RoHS exemption for either 1) lead-based flip-chip solder bumps used between the die and package, or 2) lead-based die adhesive used between

the die and leadframe. The component is otherwise considered Pb-Free (RoHS compatible) as defined above.

Green (RoHS & no Sb/Br): TI defines "Green" to mean Pb-Free (RoHS compatible), and free of Bromine (Br) and Antimony (Sb) based flame retardants (Br or Sb do not exceed 0.1% by weight

in homogeneous material)

Addendum-Page 5

PACKAGE OPTION ADDENDUM

www.ti.com

10-Nov-2013

⁽³⁾MSL, Peak Temp. - The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder temperature.

⁽⁴⁾There may be additional marking, which relates to the logo, the lot trace code information, or the environmental category on the device.

⁽⁵⁾Multiple Device Markings will be inside parentheses. Only one Device Marking contained in parentheses and separated by a "~" will appear on a device. If a line is indented then it is a continuation

of the previous line and the two combined represent the entire Device Marking for that device.

⁽⁶⁾Lead/Ball Finish - Orderable Devices may have multiple material finish options. Finish options are separated by a vertical ruled line. Lead/Ball Finish values may wrap to two lines if the finish

value exceeds the maximum column width.

Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided. TI bases its knowledge and belief on information

provided by third parties, and makes no representation or warranty as to the accuracy of such information. Efforts are underway to better integrate information from third parties. TI has taken and

continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.

TI and TI suppliers consider certain information to be proprietary, and thus CAS numbers and other limited information may not be available for release.

In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s) at issue in this document sold by TI to Customer on an annual basis.

OTHER QUALIFIED VERSIONS OF LM4041-N, LM4041-N-Q1 :

Catalog: LM4041-N

•

Automotive: LM4041-N-Q1

•

NOTE: Qualified Version Definitions:

Catalog - TI's standard catalog product

•

Automotive - Q100 devices qualified for high-reliability automotive applications targeting zero defects

•

Addendum-Page 6

PACKAGE MATERIALS INFORMATION

www.ti.com

7-Nov-2013

TAPE AND REEL INFORMATION

*All dimensions are nominal

Device

Package Package Pins

Type Drawing

SPQ

Reel

Pin1

Diameter Width (mm) (mm) (mm) (mm) (mm) Quadrant

(mm) W1 (mm)

LM4041AIM3-1.2

SOT-23

DBZ

DCK

DBZ

1000

3000

1000

3000

1000

3000

1000

3000

178.0

8.4

3.3

2.9

1.22

1.2

4.0

8.0

LM4041AIM3-1.2/NOPB SOT-23

LM4041AIM3X-1.2/NOPB SOT-23

3.3

2.9

LM4041BIM3-1.2

SOT-23

3.3

2.9

LM4041BIM3-1.2/NOPB SOT-23

LM4041BIM3X-1.2/NOPB SOT-23

3.3

2.9

3.3

2.9

LM4041BIM7-1.2

LM4041BIM7-1.2/NOPB

LM4041BIM7X-1.2

SC70

2.25

3.3

2.45

2.9

1.2

LM4041BIM7X-1.2/NOPB SC70

LM4041CEM3-1.2 SOT-23

LM4041CEM3-1.2/NOPB SOT-23

LM4041CEM3-ADJ SOT-23

1.2

1.22

3.3

2.9

3.3

2.9

LM4041CEM3-ADJ/NOPB SOT-23

LM4041CEM3X-1.2/NOPB SOT-23

3.3

2.9

3.3

2.9

LM4041CEM3X-ADJ

SOT-23

3.3

2.9

LM4041CEM3X-ADJ/NOP SOT-23

3.3

2.9

Pack Materials-Page 1

PACKAGE MATERIALS INFORMATION

www.ti.com

7-Nov-2013

Device

Package Package Pins

Type Drawing

SPQ

Reel

Pin1

Diameter Width (mm) (mm) (mm) (mm) (mm) Quadrant

(mm) W1 (mm)

LM4041CIM3-1.2

LM4041CIM3-1.2/NOPB SOT-23

LM4041CIM3-ADJ SOT-23

LM4041CIM3-ADJ/NOPB SOT-23

LM4041CIM3X-1.2 SOT-23

LM4041CIM3X-1.2/NOPB SOT-23

LM4041CIM3X-ADJ SOT-23

SOT-23

DBZ

1000

3000

178.0

8.4

3.3

2.9

1.22

4.0

8.0

LM4041CIM3X-ADJ/NOP SOT-23

LM4041CIM7-1.2/NOPB

LM4041CIM7-ADJ

SC70

DCK

1000

3000

178.0

8.4

2.25

2.45

1.2

4.0

8.0

LM4041CIM7-ADJ/NOPB SC70

LM4041CIM7X-1.2/NOPB SC70

LM4041CIM7X-ADJ

SC70

LM4041CIM7X-ADJ/NOP

LM4041DEM3-1.2/NOPB SOT-23

LM4041DEM3-ADJ SOT-23

DBZ

1000

3000

178.0

8.4

3.3

2.9

1.22

4.0

8.0

LM4041DEM3-ADJ/NOPB SOT-23

LM4041DEM3X-1.2/NOPB SOT-23

LM4041DEM3X-ADJ/NOP SOT-23

LM4041DIM3-1.2

LM4041DIM3-1.2/NOPB SOT-23

LM4041DIM3-ADJ SOT-23

LM4041DIM3-ADJ/NOPB SOT-23

LM4041DIM3X-1.2 SOT-23

LM4041DIM3X-1.2/NOPB SOT-23

LM4041DIM3X-ADJ SOT-23

SOT-23

DBZ

1000

3000

178.0

8.4

3.3

2.9

1.22

4.0

8.0

LM4041DIM3X-ADJ/NOP SOT-23

LM4041DIM7-1.2/NOPB

SC70

DCK

1000

3000

178.0

8.4

2.25

2.45

1.2

4.0

8.0

LM4041DIM7-ADJ/NOPB SC70

LM4041DIM7X-1.2/NOPB SC70

LM4041DIM7X-ADJ/NOP

SC70

LM4041EEM3-1.2

SOT-23

DBZ

1000

3000

1000

3000

178.0

8.4

3.3

2.9

1.22

4.0

8.0

LM4041EEM3-1.2/NOPB SOT-23

LM4041EEM3X-1.2 SOT-23

LM4041EEM3X-1.2/NOPB SOT-23

LM4041EIM3-1.2 SOT-23

LM4041EIM3-1.2/NOPB SOT-23

LM4041EIM3X-1.2 SOT-23

LM4041EIM3X-1.2/NOPB SOT-23

Pack Materials-Page 2

PACKAGE MATERIALS INFORMATION

www.ti.com

7-Nov-2013

Device

Package Package Pins

Type Drawing

SPQ

Reel

Pin1

Diameter Width (mm) (mm) (mm) (mm) (mm) Quadrant

(mm) W1 (mm)

LM4041EIM7-1.2

SC70

DCK

DBZ

1000

3000

1000

3000

178.0

8.4

2.25

3.3

2.45

2.9

1.2

4.0

8.0

LM4041EIM7-1.2/NOPB

LM4041EIM7X-1.2/NOPB SC70

LM4041QAIM3-1.2/NO SOT-23

LM4041QBIM3-1.2/NO SOT-23

LM4041QCEM3-1.2NO SOT-23

LM4041QCIM3-1.2/NO SOT-23

LM4041QDEM3-1.2/NO SOT-23

LM4041QDIM3-1.2/NO SOT-23

LM4041QEEM3-1.2/NO SOT-23

LM4041QEEM3X-1.2NO SOT-23

1.2

1.22

3.3

2.9

3.3

2.9

3.3

2.9

3.3

2.9

3.3

2.9

3.3

2.9

3.3

2.9

*All dimensions are nominal

Device

Package Type Package Drawing Pins

SPQ

Length (mm) Width (mm) Height (mm)

LM4041AIM3-1.2

LM4041AIM3-1.2/NOPB

LM4041AIM3X-1.2/NOPB

LM4041BIM3-1.2

SOT-23

DBZ

1000

3000

1000

3000

210.0

185.0

35.0

LM4041BIM3-1.2/NOPB

LM4041BIM3X-1.2/NOPB

Pack Materials-Page 3

PACKAGE MATERIALS INFORMATION

www.ti.com

7-Nov-2013

Device

Package Type Package Drawing Pins

SPQ

Length (mm) Width (mm) Height (mm)

LM4041BIM7-1.2

LM4041BIM7-1.2/NOPB

LM4041BIM7X-1.2

SC70

DCK

DBZ

1000

3000

1000

3000

210.0

185.0

35.0

SC70

LM4041BIM7X-1.2/NOPB

LM4041CEM3-1.2

SC70

SOT-23

LM4041CEM3-1.2/NOPB

LM4041CEM3-ADJ

LM4041CEM3-ADJ/NOPB

LM4041CEM3X-1.2/NOPB

LM4041CEM3X-ADJ

LM4041CEM3X-ADJ/NOP

LM4041CIM3-1.2

LM4041CIM3-1.2/NOPB

LM4041CIM3-ADJ

SOT-23

SC70

DBZ

DCK

DBZ

1000

3000

1000

3000

1000

3000

210.0

185.0

35.0

LM4041CIM3-ADJ/NOPB

LM4041CIM3X-1.2

LM4041CIM3X-1.2/NOPB

LM4041CIM3X-ADJ

LM4041CIM3X-ADJ/NOPB

LM4041CIM7-1.2/NOPB

LM4041CIM7-ADJ

SC70

LM4041CIM7-ADJ/NOPB

LM4041CIM7X-1.2/NOPB

LM4041CIM7X-ADJ

SC70

LM4041CIM7X-ADJ/NOPB

LM4041DEM3-1.2/NOPB

LM4041DEM3-ADJ

SC70

SOT-23

LM4041DEM3-ADJ/NOPB

LM4041DEM3X-1.2/NOPB

LM4041DEM3X-ADJ/NOP

LM4041DIM3-1.2

LM4041DIM3-1.2/NOPB

LM4041DIM3-ADJ

SOT-23

SC70

DBZ

DCK

1000

3000

1000

3000

210.0

185.0

35.0

LM4041DIM3-ADJ/NOPB

LM4041DIM3X-1.2

LM4041DIM3X-1.2/NOPB

LM4041DIM3X-ADJ

LM4041DIM3X-ADJ/NOPB

LM4041DIM7-1.2/NOPB

LM4041DIM7-ADJ/NOPB

LM4041DIM7X-1.2/NOPB

LM4041DIM7X-ADJ/NOPB

SC70

Pack Materials-Page 4

PACKAGE MATERIALS INFORMATION

www.ti.com

7-Nov-2013

Device

Package Type Package Drawing Pins

SPQ

Length (mm) Width (mm) Height (mm)

LM4041EEM3-1.2

LM4041EEM3-1.2/NOPB

LM4041EEM3X-1.2

SOT-23

SC70

DBZ

DCK

DBZ

1000

3000

1000

3000

1000

3000

1000

3000

210.0

185.0

35.0

LM4041EEM3X-1.2/NOPB

LM4041EIM3-1.2

LM4041EIM3-1.2/NOPB

LM4041EIM3X-1.2

LM4041EIM3X-1.2/NOPB

LM4041EIM7-1.2

LM4041EIM7-1.2/NOPB

LM4041EIM7X-1.2/NOPB

LM4041QAIM3-1.2/NO

LM4041QBIM3-1.2/NO

LM4041QCEM3-1.2NO

LM4041QCIM3-1.2/NO

LM4041QDEM3-1.2/NO

LM4041QDIM3-1.2/NO

LM4041QEEM3-1.2/NO

LM4041QEEM3X-1.2NO

SC70

SOT-23

Pack Materials-Page 5

IMPORTANT NOTICE

Texas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, enhancements, improvements and other

changes to its semiconductor products and services per JESD46, latest issue, and to discontinue any product or service per JESD48, latest

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TI warrants performance of its components to the specifications applicable at the time of sale, in accordance with the warranty in TI’s terms

and conditions of sale of semiconductor products. Testing and other quality control techniques are used to the extent TI deems necessary

to support this warranty. Except where mandated by applicable law, testing of all parameters of each component is not necessarily

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TI assumes no liability for applications assistance or the design of Buyers’ products. Buyers are responsible for their products and

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Mailing Address: Texas Instruments, Post Office Box 655303, Dallas, Texas 75265

LM4041CEM3X-ADJ/NOPB [TI]

相关型号：

LM4041CEM3X-ADJNOPB

LM4041CEX3-1.2+T

LM4041CEX3-1.2-T

LM4041CFTA

LM4041CI-ADJ

LM4041CIADJMWC

LM4041CICT-1.2

LM4041CIDBZR

LM4041CIDBZRG4

LM4041CIDBZT

LM4041CIDBZTG4

LM4041CIDCKR