LM2931ASX-5.0/NOPB_技术文档

June 2005

LM2931

Series Low Dropout Regulators

Both versions are available in a TO-220 power package,

TO-263 surface mount package, and an 8-lead surface mount

package. The fixed output version is also available in the

TO-92 plastic and 6-Bump micro SMD packages.

General Description

The LM2931 positive voltage regulator features a very low

quiescent current of 1mA or less when supplying 10mA loads.

This unique characteristic and the extremely low input-output

differential required for proper regulation (0.2V for output cur-

rents of 10mA) make the LM2931 the ideal regulator for

standby power systems. Applications include memory stand-

by circuits, CMOS and other low power processor power

supplies as well as systems demanding as much as 100mA

of output current.

Features

Very low quiescent current

■

Output current in excess of 100 mA

Input-output differential less than 0.6V

Reverse battery protection

Designed originally for automotive applications, the LM2931

and all regulated circuitry are protected from reverse battery

installations or 2 battery jumps. During line transients, such

as a load dump (60V) when the input voltage to the regulator

can momentarily exceed the specified maximum operating

voltage, the regulator will automatically shut down to protect

both internal circuits and the load. The LM2931 cannot be

harmed by temporary mirror-image insertion. Familiar regu-

lator features such as short circuit and thermal overload pro-

tection are also provided.

60V load dump protection

−50V reverse transient protection

Short circuit protection

Internal thermal overload protection

Mirror-image insertion protection

■

Available in TO-220, TO-92, TO-263, SO-8 or 6-Bump mi-

cro SMD packages

Available as adjustable with TTL compatible switch

■

See AN-1112 for micro SMD considerations

The LM2931 family includes a fixed 5V output (±3.8% toler-

ance for A grade) or an adjustable output with ON/OFF pin.

Connection Diagrams

FIXED VOLTAGE OUTPUT

TO-220 3-Lead Power Package

TO-263 Surface-Mount Package

525406

525411

Front View

Top View

525412

Side View

8-Pin Surface Mount

TO-92 Plastic Package

525408

Bottom View

525407

*NC = Not internally connected. Must be electrically isolated from the rest of

the circuit for the micro SMD package.

Top View

5254

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6-Bump micro SMD

micro SMD Laser Mark

525439

525438

Top View

(Bump Side Down)

ADJUSTABLE OUTPUT VOLTAGE

TO-220 5-Lead Power Package

TO-263

5-Lead Surface-Mount Package

525409

525413

Front View

Top View

525414

Side View

8-Pin Surface Mount

525410

Top View

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Ordering Information

Output

Package

Part Number

Package Marking

Transport Media

NSC Drawing

Number

5V

3-Pin TO-220

LM2931T-5.0

LM2931AT-5.0

LM2931S-5.0

LM2931AS-5.0

LM2931Z-5.0

LM2931T-5.0

LM2931AT-5.0

LM2931S-5.0

LM2931AS-5.0

LM2931Z-5

LM2931AZ

2931M-5.0

2931AM-5.0

‐

Rails

T03B

3-Pin TO-263

TO-92

Rails

TS3B

Z03A

Rails

1.8k Units per Box

Rails

LM2931AZ-5.0

LM2931M-5.0

LM2931AM-5.0

LM2931IBPX-5.0

8-Pin

SOIC

M08A

Rails

* 6-Bump

micro SMD

Tape and Reel

BPA06HTA

Adjustable,

3V to 24V

5-Pin TO-220

5-Pin TO-263

LM2931CT

LM2931CS

LM2931CM

LM2931CT

LM2931CS

LM2931CM

Rails

T05A

TS5B

M08A

8-Pin

SOIC

3.3V

* 6-Bump

micro SMD

LM2931IBPX-3.3

Tape and Reel

BPA06HTB

‐

Note:

The micro SMD package marking is a single digit

manufacturing Date Code Only.

3

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Typical Applications

LM2931 Fixed Output

525404

*Required if regulator is located far from power supply filter.

**C2 must be at least 100 μF to maintain stability. May be increased without bound to maintain regulation during transients. Locate as close as possible to the

regulator. This capacitor must be rated over the same operating temperature range as the regulator. The equivalent series resistance (ESR) of this capacitor is

critical; see curve.

LM2931 Adjustable Output

525405

Note: Using 27k for R1 will automatically compensate for errors in V_OUTdue to the input bias current of the ADJ pin (approximately 1 μA).

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ꢀꢀLM2931

Internal Power Dissipation

50V

Absolute Maximum Ratings (Note 1)

If Military/Aerospace specified devices are required,

please contact the National Semiconductor Sales Office/

Distributors for availability and specifications.

ꢀ(Notes 2, 4)

Operating Ambient Temperature

ꢀRange

Maximum Junction Temperature

Storage Temperature Range

Lead Temp. (Soldering, 10 seconds)

ESD Tolerance (Note 5)

Internally Limited

−40°C to +85°C

125°C

−65°C to +150°C

230°C

Input Voltage

ꢀOperating Range

ꢀOvervoltage Protection

ꢀꢀLM2931A, LM2931C (Adjustable)

26V

60V

2000V

Electrical Characteristics for Fixed 3.3V Version

V_IN= 14V, I_O= 10mA, T_J= 25°C, C₂= 100μF (unless otherwise specified) (Note 2)

Parameter

Conditions

LM2931-3.3

Limit

Units

Typ

(Note 3)

Output Voltage

3.3

3.465

3.135

V_MAX

V_MIN

3.630

2.970

V_MAX

V_MIN

4V ≤ V_IN≤ 26V, I_O= 100 mA

−40°C ≤ T_J≤ 125°C

Line Regulation

Load Regulation

Output Impedance

4

33

50

mV_MAX

mΩ

4V ≤ V_IN≤ 26V

10

5mA ≤ I_O≤ 100mA

100mA_DCand 10mA_rms

100Hz - 10kHz

,

200

Quiescent Current

0.4

1.0

mA_MAX

I_O≤ 10mA, 4V ≤ V_IN≤ 26V

−40°C ≤ T_J≤ 125°C

I_O= 100mA, V_IN= 14V, T_J= 25°C

15

mA

Output Noise Voltage

330

10Hz -100kHz, C_OUT= 100μF

μV_rms

Long Term Stability

Ripple Rejection

13

80

mV/1000 hr

dB

f_O= 120Hz

Dropout Voltage

I_O= 10mA

0.05

0.30

0.2

0.6

V_MAX

V_MIN

I_O= 100mA

Maximum Operational Input

Voltage

33

70

26

50

Maximum Line Transient

R_L= 500Ω, V_O≤ 5.5V,

T = 1ms, τ ≤ 100ms

Reverse Polarity Input Voltage, DC

−30

−80

−15

−50

V_MIN

V_O≥ −0.3V, R_L= 500Ω

Reverse Polarity Input Voltage,

Transient

T = 1ms, τ ≤ 100ms, R_L= 500Ω

5

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Electrical Characteristics for Fixed 5V Version

V_IN= 14V, I_O= 10mA, T_J= 25°C, C2 = 100 μF (unless otherwise specified) (Note 2)

Parameter

Conditions

LM2931A-5.0

LM2931-5.0

Units

Limit

(Note 3)

Limit

(Note 3)

Typ

Output Voltage

5

5.19

4.81

5

5.25

4.75

V_MAX

V_MIN

5.25

4.75

5.5

4.5

V_MAX

V_MIN

6.0V ≤ V_IN≤ 26V, I_O= 100mA

−40°C ≤ T_J≤ 125°C

Line Regulation

2

4

10

30

2

4

10

30

9V ≤ V_IN≤ 16V

6V ≤ V_IN≤ 26V

mV_MAX

Load Regulation

14

50

14

50

mV_MAX

5 mA ≤ I_O≤ 100mA

Output Impedance

100mA_DCand 10mA_rms

100Hz -10kHz

,

200

mΩ

Quiescent Current

0.4

15

1.0

0.4

15

1.0

mA_MAX

I_O≤ 10mA, 6V ≤ V_IN≤ 26V

−40°C ≤ T_J≤ 125°C

I_O= 100mA, V_IN= 14V, T_J= 25°C

30

5

mA_MAX

mA_MIN

Output Noise Voltage

Long Term Stability

500

20

500

20

10Hz -100kHz, C_OUT= 100μF

μV_rms

mV/1000

hr

Ripple Rejection

Dropout Voltage

f_O= 120 Hz

80

55

80

dB_MIN

V_MAX

V_MIN

I_O= 10mA

0.05

0.3

0.2

0.6

0.05

0.3

0.2

0.6

I_O= 100mA

Maximum Operational Input

Voltage

33

26

33

26

Maximum Line Transient

R_L= 500Ω, V_O≤ 5.5V,

V_MIN

70

60

70

50

T = 1ms, τ ≤ 100ms

Reverse Polarity Input Voltage,

DC

−30

−15

−30

−15

V_O≥ −0.3V, R_L= 500Ω

Reverse Polarity Input Voltage,

Transient

−80

−50

−80

−50

V_MIN

T = 1ms, τ ≤ 100ms, R_L= 500Ω

Note 1: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Electrical specifications do not apply when operating the device

beyond its rated operating conditions.

Note 2: See circuit in Typical Applications. To ensure constant junction temperature, low duty cycle pulse testing is used.

Note 3: All limits are guaranteed for T_J= 25°C (standard type face) or over the full operating junction temperature range of −40°C to +125°C (bold type face).

Note 4: The maximum power dissipation is a function of maximum junction temperature T_Jmax, total thermal resistance θ_JA, and ambient temperature T_A. The

maximum allowable power dissipation at any ambient temperature is P_D= (T_Jmax− T_A)/θ_JA. If this dissipation is exceeded, the die temperature will rise above

150°C and the LM2931 will go into thermal shutdown. For the LM2931 in the TO-92 package, θ_JAis 195°C/W; in the SO-8 package, θ_JAis 160°C/W, and in the

TO-220 package, θ_JAis 50°C/W; in the TO-263 package, θ_JAis 73°C/W; and in the 6-Bump micro SMD package θ_JAis 290°C/W. If the TO-220 package is used

with a heat sink, θ_JAis the sum of the package thermal resistance junction-to-case of 3°C/W and the thermal resistance added by the heat sink and thermal

interface.

If the TO-263 package is used, the thermal resistance can be reduced by increasing the P.C. board copper area thermally connected to the package: Using 0.5

square inches of copper area, θ_JAis 50°C/W; with 1 square inch of copper area, θ_JAis 37°C/W; and with 1.6 or more square inches of copper area, θ_JAis 32°C/

W.

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Note 5: Human body model, 100 pF discharged through 1.5 kΩ.

Electrical Characteristics for Adjustable Version

V_IN= 14V, V_OUT= 3V, I_O= 10 mA, T_J= 25°C, R1 = 27k, C2 = 100 μF (unless otherwise specified) (Note 2)

Parameter

Reference Voltage

Conditions

Typ

Limit

Units

Limit

V_MAX

1.20

1.26

1.14

1.32

1.08

24

V_MIN

V_MAX

I_O≤ 100 mA, −40°C ≤ T_j≤ 125°C, R1 = 27k

Measured from V_OUTto Adjust Pin

V_MIN

Output Voltage Range

V_MAX

3

V_MIN

Line Regulation

Load Regulation

Output Impedance

Quiescent Current

0.2

0.3

1.5

mV/V_MAX

V_OUT+ 0.6V ≤ V_IN≤ 26V

1

%

5 mA ≤ I_O≤ 100 mA

100 mA_DCand 10 mA_rms, 100 Hz–10 kHz

I_O= 10 mA

MAX

40

0.4

15

mΩ/V

mA_MAX

mA

1

I_O= 100 mA

0.8

mA_MAX

During Shutdown R_L= 500Ω

10 Hz–100 kHz

Output Noise Voltage

100

μV_rms/V

Long Term Stability

Ripple Rejection

0.4

%/1000 hr

%/V

f_O= 120 Hz

0.02

Dropout Voltage

0.05

0.3

0.2

0.6

V_MAX

I_O≤ 10 mA

I_O= 100 mA

Maximum Operational Input

Voltage

33

70

26

60

V_MIN

Maximum Line Transient

I_O= 10 mA, Reference Voltage ≤ 1.5V

T = 1 ms, τ ≤ 100 ms

Reverse Polarity Input

Voltage, DC

V_O≥ −0.3V, R_L= 500Ω

−30

−80

−15

−50

V_MIN

Reverse Polarity Input

Voltage, Transient

On/Off Threshold Voltage

ꢀOn

T = 1 ms, τ ≤ 100 ms, R_L= 500Ω

V_MIN

V_O=3V

2.0

2.2

20

1.2

3.25

50

V_MAX

V_MIN

ꢀOff

On/Off Threshold Current

μA_MAX

7

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Typical Performance Characteristics

Dropout Voltage

525417

525416

Low Voltage Behavior

Output at Voltage Extremes

525418

525419

Line Transient Response

Load Transient Response

525420

525421

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8

Peak Output Current

Quiescent Current

525423

525425

525427

525422

525424

525426

Quiescent Current

Ripple Rejection

9

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Output Impedance

Operation During Load

Dump

525428

525429

Reference Voltage

Maximum Power Dissipation

(SO-8)

525430

525431

Maximum Power Dissipation

(TO-220)

Maximum Power Dissipation

(TO-92)

525432

525433

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Maximum Power Dissipation

On/Off Threshold

(TO-263) (Note 4)

525435

525434

Output Capacitor ESR

525436

11

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Schematic Diagram

525401

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At this point, the procedure for bench testing the minimum

value of an output capacitor in a special application circuit

should be clear. Since worst-case occurs at minimum oper-

ating temperatures and maximum operating currents, the

entire circuit, including the electrolytic, should be cooled to the

minimum temperature. The input voltage to the regulator

should be maintained at 0.6V above the output to keep inter-

nal power dissipation and die heating to a minimum. Worst-

case occurs just after input power is applied and before the

die has had a chance to heat up. Once the minimum value of

capacitance has been found for the brand and type of elec-

trolytic in question, the value should be doubled for actual use

to account for production variations both in the capacitor and

the regulator. (All the values in this section and the remainder

of the data sheet were determined in this fashion.)

Application Hints

One of the distinguishing factors of the LM2931 series regu-

lators is the requirement of an output capacitor for device

stability. The value required varies greatly depending upon

the application circuit and other factors. Thus some com-

ments on the characteristics of both capacitors and the reg-

ulator are in order.

High frequency characteristics of electrolytic capacitors de-

pend greatly on the type and even the manufacturer. As a

result, a value of capacitance that works well with the LM2931

for one brand or type may not necessary be sufficient with an

electrolytic of different origin. Sometimes actual bench test-

ing, as described later, will be the only means to determine

the proper capacitor type and value. Experience has shown

that, as a rule of thumb, the more expensive and higher quality

electrolytics generally allow a smaller value for regulator sta-

bility. As an example, while a high-quality 100 μF aluminum

electrolytic covers all general application circuits, similar sta-

bility can be obtained with a tantalum electrolytic of only

47μF. This factor of two can generally be applied to any spe-

cial application circuit also.

LM2931 micro SMD Light Sensitivity

When the LM2931 micro SMD package is exposed to bright

sunlight, normal office fluorescent light, and other LED's, it

operates within the guaranteed limits specified in the electri-

cal characteristic table.

Definition of Terms

Another critical characteristic of electrolytics is their perfor-

mance over temperature. While the LM2931 is designed to

operate to −40°C, the same is not always true with all elec-

trolytics (hot is generally not a problem). The electrolyte in

many aluminum types will freeze around −30°C, reducing

their effective value to zero. Since the capacitance is needed

for regulator stability, the natural result is oscillation (and lots

of it) at the regulator output. For all application circuits where

cold operation is necessary, the output capacitor must be rat-

ed to operate at the minimum temperature. By coincidence,

worst-case stability for the LM2931 also occurs at minimum

temperatures. As a result, in applications where the regulator

junction temperature will never be less than 25°C, the output

capacitor can be reduced approximately by a factor of two

over the value needed for the entire temperature range. To

continue our example with the tantalum electrolytic, a value

of only 22μF would probably thus suffice. For high-quality alu-

minum, 47μF would be adequate in such an application.

Dropout Voltage: The input-output voltage differential at

which the circuit ceases to regulate against further reduction

in input voltage. Measured when the output voltage has

dropped 100 mV from the nominal value obtained at 14V in-

put, dropout voltage is dependent upon load current and

junction temperature.

Input Voltage: The DC voltage applied to the input terminals

with respect to ground.

Input-Output Differential: The voltage difference between

the unregulated input voltage and the regulated output volt-

age for which the regulator will operate.

Line Regulation: The change in output voltage for a change

in the input voltage. The measurement is made under condi-

tions of low dissipation or by using pulse techniques such that

the average chip temperature is not significantly affected.

Load Regulation: The change in output voltage for a change

in load current at constant chip temperature.

Another regulator characteristic that is noteworthy is that sta-

bility decreases with higher output currents. This sensible fact

has important connotations. In many applications, the

LM2931 is operated at only a few milliamps of output current

or less. In such a circuit, the output capacitor can be further

reduced in value. As a rough estimation, a circuit that is re-

quired to deliver a maximum of 10mA of output current from

the regulator would need an output capacitor of only half the

value compared to the same regulator required to deliver the

full output current of 100mA. If the example of the tantalum

capacitor in the circuit rated at 25°C junction temperature and

above were continued to include a maximum of 10mA of out-

put current, then the 22μF output capacitor could be reduced

to only 10μF.

Long Term Stability: Output voltage stability under accel-

erated life-test conditions after 1000 hours with maximum

rated voltage and junction temperature.

Output Noise Voltage: The rms AC voltage at the output,

with constant load and no input ripple, measured over a spec-

ified frequency range.

Quiescent Current: That part of the positive input current

that does not contribute to the positive load current. The reg-

ulator ground lead current.

Ripple Rejection: The ratio of the peak-to-peak input ripple

voltage to the peak-to-peak output ripple voltage at a speci-

fied frequency.

Temperature Stability of V_O: The percentage change in

output voltage for a thermal variation from room temperature

to either temperature extreme.

In the case of the LM2931CT adjustable regulator, the mini-

mum value of output capacitance is a function of the output

voltage. As a general rule, the value decreases with higher

output voltages, since internal loop gain is reduced.

13

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Physical Dimensions inches (millimeters) unless otherwise noted

8-Lead Surface Mount Package (M)

NS Package Number M08A

3-Lead TO-220 Plastic Package (T)

NS Package Number T03B

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14

5-Lead TO-220 Power Package (T)

NS Package Number T05A

3-Lead TO-263 Surface Mount Package

NS Package Number TS3B

15

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5-Lead TO-263 Surface Mount Package

NS Package Number TS5B

3-Lead TO-92 Plastic Package (Z)

NS Package Number Z03A

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NOTE: UNLESS OTHERWISE SPECIFIED.

1. EPOXY COATING.

2. 63Sn/37Pb EUTECTIC BUMP.

3. RECOMMEND NON-SOLDER MASK DEFINED LANDING PAD.

4. PIN A1 IS ESTABLISHED BY LOWER LEFT CORNER WITH RESPECT TO TEST ORIENTATION PINS ARE NUMBERED COUNTERCLOCKWISE.

5. XXX IN DRAWING NUMBER REPRESENTS PACKAGE SIZE VARIATION WHERE X₁IS PACKAGE WIDTH, X₂IS PACKAGE LENGTH AND X₃IS PACKAGE

HEIGHT.

6. REFERENCE JEDEC REGISTRATION MO-211, VARIATION BC.

6-Bump micro SMD

NS Package Number BPA06HTB

X₁= 0.955ꢀX₂= 1.717ꢀX₃= 0.850

17

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Notes

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.

For the most current product information visit us at www.national.com.

LIFE SUPPORT POLICY

NATIONAL'S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYS-

TEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT AND GENERAL COUNSEL OF NATIONAL SEMICON-

DUCTOR CORPORATION. As used herein:

Life support devices or systems are devices or systems which,

(a) are intended for surgical implant into the body, or (b) support

or sustain life, and whose failure to perform when properly used

in accordance with instructions for use provided in the labeling,

can be reasonably expected to result in a significant injury to

the user.

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 the life support device or system, or to

affect its safety or effectiveness.

1.

2.

BANNED SUBSTANCE COMPLIANCE

National Semiconductor certifies that the products and packing materials meet the provisions of the Customer Products Stewardship

Specification (CSP-9-111C2) and the Banned Substances and Materials of Interest Specification (CSP-9-111S2) and contain no "Banned

Substances" as defined in CSP-9-111S2.

Leadfree products are RoHS compliant.

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型号：	LM2931ASX-5.0/NOPB
厂家：	National Semiconductor
描述：	IC VREG 5 V FIXED POSITIVE LDO REGULATOR, 0.6 V DROPOUT, PSSO3, TO-263, 3 PIN, Fixed Positive Single Output LDO Regulator 输出元件调节器
文件：	总18页 (文件大小：348K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

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