BM1117-ADJ原理图各脚功能电路原理芯片引脚定义引脚图及功能-中国IC网-芯三七

BM1117A

GENERAL DESCRIPTION

The BM1117A series of adjustable and fixed voltage regulator are designed to provide0.8A

output current and to operate down to 1V input-to-output differential. The dropout voltage of the

device is guaranteed maximum 1.3V at maximum output current, decreasing at lower load

currents.

On-chip trimming adjusts the reference voltage to within 1% accuray. Current limit is also

trimmed, minimizing the stress under overload conditions on both the regulator and power

source circuitry.

The BM1117A devices are pin compatible with other three-terminal SCSI regulators and are

offered in the low profile surface mount SOT-223 package and in the TO252-2 small plastic

package.

FEATURES

APPLICATIONS

Three Terminal Adjustable or Fixed Voltages*

High Efficiency Linear Regulators

Post Regulators for Switching Supplies

5V to 3.3V Linear Regulator

Power Management for Notebook

Battery Chargers

1.5V, 1.8V, 2.5V, 2.85V, 3.3V and 5.0V

Output Current of

0.8A

Up to +15V input max.

Line Regulation: 0.2% Max.

Load Regulation: 0.4% Max.

SOT-223 and TO-252-2 package ava

Battery Powered Instrumentation

Active SCSI Terminators

ORDERING INFORMATION

PACKAGE TYPE

OPERATING JUNCTION

TEMPERATURE RANGE

TO-252

BM1117D-ADJ

BM1117D-1.5

BM1117D-1.8

BM1117D-2.5

BM1117D-2.85

BM1117D-3.3

BM1117D--5.0

SOT-223

BM1117A-ADJ

BM1117A-1.5

BM1117A-1.8

BM1117A-2.5

BM1117A-2.85

BM1117A-3.3

BM1117A-5.0

-20 to 125° C

*For additional available fixed voltages contact factory.

PIN DESCRIPTIONS

FIXED

ADJUSTABLE

VERSION

1- Adjust

2- V^OUT

SOT-223 Top View

TO-252-2 FRONT VIEW

VERSION

1- Ground

2- V^OUT

3- V^IN

1

2

3

BOOKLY MICRO ELECTRONIC LIMITED CORP.

A

BM1117

SPECIFICATION

ABSOLUT MAXIMUM RATINGS(Note 1)

Power Dissipation

Input Voltage

Internally limited

Soldering information

Lead Temperature (10 sec)

Thermal Resistance

TO-252 package

17V

300°C

Operating Junction Temperature

Control Section

-20°C to 125°CS

-20°C to 150°C

- 65°C to +150°C

φ JA= 60°C/W

φ JA= 90°C/W*

Power Transistor

SOT-223 package

Storage temperature

* With package soldering to copper area over

backside ground plane or internal power plane φJA

can vary from 46°C/W to >90°C/W depending on

mounting technique and the size of the copper area.

ELECTRICAL CHARACTERISTICS

Electrical Characteristics at I_OUT= 0 mA, and T_J= +25°C unless otherwise specified.

Parameter

Device

Conditions

Min

Typ Max Units

I

_OUT= 10 mA

Reference Voltage

(Note 2)

1.238

1.250 1.262

V

BM1117A

10mA ≤I_OUT≤0.8A,

1.225

1.250 1.270

1.5V≤ (V_IN- V_OUT) ≤12V

Output Voltage

(Note 2)

1.485

1.476

1.782

1.773

2.475

2.460

2.82

1.500 1.515

1.500 1.524

1.800 1.818

1.800 1.827

2.500 2.525

2.500 2.560

V

BM1117A-1.5

BM1117A-1.8

BM1117A-2.5

BM1117A-2.85

BM1117A-3.3

BM1117A-5.0

BM1117A

0≤I_OUT≤0.8A ,3.0V≤V_IN≤12V

0 ≤I_OUT≤0.8A , 3.3V≤V_IN≤12V

0 ≤I_OUT≤0.8A ,4.0V≤V_IN≤12V

0 ≤I_OUT≤0.8A ,4.35V≤V_IN≤12V

0 ≤I_OUT≤0.8A ,4.75V ≤V_IN≤12V

0 ≤I_OUT≤0.8A , 6.5V ≤V_IN≤12V

V

2.850

2.88

V

2.79

2.850

2.91

V

3.267

3.235

4.950

4.900

3.300 3.333

3.300 3.365

5.000 5.050

5.000 5.100

V

0.015

0.035

0.3

0.2

5

%

I

_OUT= 10 mA ,

Line Regulation

%

1.5V≤ (V_IN- V_OUT) ≤12V

mV

BM1117A-1.5

BM1117A-1.8

BM1117A-2.5

BM1117A-2.85

BM1117A-3.3

BM1117A-5.0

3.0V≤V_IN≤12V

0.6

6

0.3

5

3.3V≤V_IN≤12V

4.0V≤V_IN≤12V

4.35V≤V_IN≤12V

4.75V≤V_IN≤12V

6.5V≤V_IN≤12V

0.6

6

0.3

6

0.6

6

0.3

6

0.6

6

0.5

10

1.0

0.5

1.0

BOOKLY MICRO ELECTRONICS LIMITED CORP.

SPECIFICATION

BM1117A

Parameter

Device

Conditions

Min

Typ Max Units

0.1

0.2

3

0.3

0.4

10

20

10

20

12

20

12

20

15

25

20

35

(V_IN- V_OUT) =3V,

Load Regulation

(Notes 2, 3)

BM1117A

%

10mA≤I_OUT≤0.8A

mV

BM1117A-1.5

BM1117A-1.8

BM1117A-2.5

BM1117A-2.85

BM1117A-3.3

BM1117A-5.0

V_IN=5V, 0≤I_OUT≤0.8A

6

3

V_IN=5V, 0≤I_OUT≤0.8A

V_IN=5V, 0 ≤I_OUT≤0.8A

6

3

6

3

6

3

7

5

V_IN=8V, 0≤I_OUT≤0.8A

∆V_OUT, ∆V_REF= 1%,

10

BM1117A

Dropout Voltage

/-1.5/-1.8/-2.5/-2.

85/-3.3/-5.0

1.0

1.3

V

I

_OUT= 0.8A (Note 4)

(V_IN- V_OUT

)

BM1117A

Current Limit

/-1.5/-1.8/-2.5/-2.

85/-3.3/-5.0

900

1,100 1,500

mA

(V_IN- V_OUT) = 5V

Minimum

Current

Load

(V_IN- V_OUT

)

BM1117A

3

5

mA

= 12V (Note 5)

Quiescent Current /-1.5/-1.8/-2.5/-2.

85/-3.3/-5.0

mA

V_IN≤12V

f =120Hz , C_OUT= 22µF

Tantalum, I_OUT= 0.8A, (V_IN-V_OUT

= 3V, C_ADJ=10µF

Ripple Rejection

BM1117A

60

75

dB

)

BM1117A-1.5/-1.8/

f =120Hz , C_OUT= 22µF

60

72

68

dB

-2.5/- 2.85

Tantalum, I_OUT= 0.8A, V_IN= 6V

f =120Hz , C_OUT= 22µF

BM1117A-3.3

BM1117A-5.0

Tantalum, I_OUT= 0.8A, V_IN= 6.3V

f =120Hz , C_OUT= 22µF

dB

Tantalum, I_OUT= 0.8A, V_IN= 8V

T_A= 25°C, 30ms pulse

Thermal Regulation BM1117A

Adjust Pin Current BM1117A

0.008

55

0.04

%W

µA

10mA ≤I_OUT≤0.8A,

120

5

1.5V≤ (V_IN- V_OUT) ≤12V

10mA ≤I_OUT≤0.8A,

Adjust Pin Current

BM1117A

0.2

0.5

µA

%

Change

1.5V≤ (V_IN- V_OUT) ≤12V

Temperature

Stability

BOOKLY MICRO ELECTRONICS LIMITED CORP.

SPECIFICATION

BM1117

A

Parameter

Device

Conditions

Min

Typ Max Units

Long Term

0.3

1

%

T_A=125°C, 1000Hrs

Stability

RMS Output Noise

0.003

T_A=25°C, 10Hz ≤f ≤10kHz

(% of V_OUT

Thermal

)

Resistance

15

°C/W

Junction-to-Case

Parameters identified with boldface type apply over the full operating temperature range.

Note 1: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. For

guaranteed specifications and test conditions, see the Electrical Characteristics. The guaranteed specifications

apply only for the test conditions listed.

Note 2: Line and Load regulation are guaranteed up to the maximum power dissipation of 1.2 W. Power

dissipation is determined by the input/output differential and the output current. Guaranteed maximum power

dissipation will not be available over the full input/output range.

Note 3: See thermal regulation specifications for changes in output voltage due to heating effects. Line and

load regulation are measured at a constant junction temperature by low duty cycle pulse testing. Load

regulation is measured at the output lead ~1/8” from the package.

Note 4: Dropout voltage is specified over the full output current range of the device.

Note 5: Minimum load current is defined as the minimum output current required to maintain regulation.

When 1.5V≤ (V^IN- VOUT) ≤12V the device is guaranteed to regulate if the output current is greater than

10mA.

APPLICATION HINTS

The BM1117A series of adjustable and fixed regulators are easy to use and are protected against

short circuit and thermal overloads. Thermal protection circuitry will shut-down the regulator

should the junction temperature exceed 165°C at the sense point.

Pin compatible with older three terminal adjustable regulators, these devices offer the

advantage of a lower dropout voltage, more precise reference tolerance and improved

reference stability with temperature.

Stability

To ensure good transient response with

heavy load current changes capacitor

values on the order of 100mF are used in

the output of many regulators. To further

improve stability and transient response

of these devices larger values of output

capacitor can be used.

The circuit design used in the BM1117A

series requires the use of an output

capacitor as frequency compensation. The

addition of 22µF solid tantalum or 150uF

aluminum on the output will ensure stability

for all operating conditions.

When adjustment terminal is bypassed with

a capacitor to improve ripple rejection, the

requirement for output capacitor increase.

The value of 22µF tantalum or 150uF

aluminum covers all cases of bypassing the

adjustment terminal. Without bypassing the

adjustment terminal smaller capacitors can

be used with equally good results.

Protection Diodes

Unlike older regulators, the BM1117A

family does not need any protection

diodes between the adjustment pin and

the output and from the output to the

input to prevent over-stressing the die.

Internal resistors are limiting the internal

BOOKLY MICRO ELECTRONICS LIMITED CORP.

SPECIFICATION

BM1117A

.current paths on the BM1117A adjustment

pin, therefore even with capacitors on the

adjustment pin no protection diode is

needed to ensure device safety under

short-circuit conditions.

damage can occur. A diode from output to

input is recommended, when a crowbar

circuit at the input of the BM1117A is used

(Figure 1).

Output Voltage

Diodes between the input and output are

not usually needed. Microsecond surge

currents of 50A to 100A can be handled by

the internal diode between the input and

output pins of the device. In normal

operations it is difficult to get those values

of surge currents even with the use of

large output capacitances. If high value

output capacitors are used, such as

1000mF to 5000mF and the input pin is

instantaneously shorted to ground,

The BM1117A series develops a 1.25V

reference voltage between the output and

the adjust terminal. Placing a resistor

between these two terminals causes a

constant current to flow through R1 and

down through R2 to set the overall output

voltage. This current is normally the

specified minimum load current of 10mA.

Because I_ADJis very small and constant it

represents a small error and it can usually

be ignored

BM1117A

VIN

VOUT

IN

OUT

BM1117A

VIN

VOUT

ADJ

R1

IN

OUT

VREF

ADJ

R1

R2

COUT

100uF

IADJ

50uA

R2

CADJ

10uF

V_OUT= V_{RE F}(1+ R2/R1)

47 ohm<R1<1500 ohm

Figure 1.

Figure 2. Basic Adjustable Regulator

effective resistance between the regulator

and the load would be:

Load Regulation

True remote load sensing it is not possible

to provide, because the BM1117A is a three

terminal device. The resistance of the wire

connecting the regulator to the load will

limit the load regulation. The data sheet

specification for load regulation is

measured at the bottom of the package.

Negative side sensing is a true Kelvin

connection, with the bottom of the output

divider returned to the negative side of the

load.

RP x ((R2+R1)/ R1),

RP = Parasitic Line Resistance

BM1117A

VIN

IN

OUT

Rp

ADJ

R1*

RL

R2*

The best load regulation is obtained when

the top of the resistor divider R1 is

connected directly to the case not to the

load. If R1 were connected to the load, the

*CONNECT R1 TO CASE

*CONNECT R2 TO LOAD

Figure 3. Connections for Best

Load Regulation

BOOKLY MICRO ELECTRONICS LIMITED CORP.

SPECIFICATION

BM1117A

Connected as shown above , RP is not

multiplied by the divider ratio

Experiments have shown that the heat

spreading copper layer does not need to be

electrically connected to the tab of the device.

The PC material can be very effective at

transmitting heat between the pad area,

attached to the pad of the device, and a

ground plane layer either inside or on the

opposite side of the board. Although the

actual thermal resistance of the PC material

is high, the Length/Area ratio of the thermal

resistance between layers is small. The data

in Table 1, was taken using1/16” FR-4 board

with 1 oz. copper foil, and it can be used as a

rough guideline for estimating thermal

resistance.

In the case of fixed voltage devices the top

of R1 is connected Kelvin internally, and

the ground pin can be used for negative

side sensing.

Thermal Considerations

The BM1117A series have internal power

and thermal limiting circuitry designed to

protect the device under overload

conditions. However maximum junction

temperature ratings of 125°C should not be

exceeded under continuous normal load

conditions.

Careful consideration must be given to all

sources of thermal resistance from junction

to ambient. For the surface mount package

SOT-223 additional heat sources mounted

near the device must be considered. The

heat dissipation capability of the PC board

and its copper traces is used as a heat sink

for the device. The thermal resistance from

the junction to the tab for the BM1117A is

15°C/W. Thermal resistance from tab to

ambient can be as low as 30°C/W.

For each application the thermal resistance

will be affected by thermal interactions with

other components on the board. To

determine

the

actual

value

some

experimentation will be necessary.

The power dissipation of the BM1117A is equal

to:

P_D= ( V_IN- V_OUT)( I_OUT

)

Maximum junction temperature will be equal

The total thermal resistance from junction

to ambient can be as low as 45°C/W. This

requires a reasonable sized PC board with

at least on layer of copper to spread the

heat across the board and couple it into the

surrounding air.

to:

T_J= T_A(MAX)+ P_D

P_D:Thermal esistance (junction-to-ambient)

Maximum junction temperature must not

exceed 125°C.

SOT223 Table 1.

COPPER AREA

THERMAL RESISTANCE

BOARD AREA

(JUNCTION-TO-AMBIENT)

TOP SIDE*

2500 Sq. mm

1000 Sq. mm

225 Sq. mm

100 Sq. mm

1000 Sq. mm

BACK SIDE

2500 Sq. mm

1000 Sq. mm

0

2500 Sq. mm

1000 Sq. mm

45°C/W

53°C/W

59°C/W

52°C/W

55°C/W

BOOKLY MICRO ELECTRONICS LIMITED CORP.

SPECIFICATION

BM1117A

Ripple Rejection

The ripple rejection values are measured with the adjustment pin bypassed. The impedance of

the adjust pin capacitor at the ripple frequency should be less than the value of R1 (normally

100Ωto 200Ω) for a proper bypassing and ripple rejection approaching the values shown. The

size of the required adjust pin capacitor is a function of the input ripple frequency. If R1=100Ω at

120Hz the adjust pin capacitor should be >13mF. At 10kHz only 0.16mF is needed.

The ripple rejection will be a function of output voltage, in circuits without an adjust pin bypass

capacitor. The output ripple will increase directly as a ratio of the output voltage to the reference

voltage (V_OUT/ V_REF).

BOOKLY MICRO ELECTRONICS LIMITED CORP.

A

BM1117

SPECIFICATION

TYPICAL CHARACTERISTICS

Minimum Operating Current

(Adjustable Device)

Short-Circuit Current

Ripple Rejection vs. Current

Adjust Pin Current

Load Regulation

Temperature Stability

BOOKLY MICRO ELECTRONICS LIMITED CORP.

A

BM1117

SPECIFICATION

ƽ TO252-2

ƽ SOT223-3

型号:	BM112-HA-CE
生命周期：	Contact Manufacturer
IHS 制造商：	BYD CO LTD
包装说明：	,
Reach Compliance Code：	unknown
风险等级：	5.72
Base Number Matches：	1

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