TC1073-3.6VCH713 Microchip Technology, TC1073-3.6VCH713 Datasheet - Page 13

TC1073-3.6VCH713

Manufacturer Part Number

TC1073-3.6VCH713

Description

IC CMOS LDO 3.6V 100MA SOT23A-6

Manufacturer

Microchip Technology

Datasheets

1.TC1073-3.0VCH713.pdf (22 pages)

2.TC1072-3.3VCH713.pdf (20 pages)

Specifications of TC1073-3.6VCH713

Regulator Topology

Positive Fixed

Voltage - Output

3.6V

Voltage - Input

Up to 6V

Voltage - Dropout (typical)

0.18V @ 100mA

Number Of Regulators

Current - Output

100mA (Min)

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

SOT-23-6

Number Of Outputs

Polarity

Positive

Input Voltage Max

6 V

Output Voltage

3.6 V

Output Type

Fixed

Dropout Voltage (max)

250 mV

Output Current

100 mA

Line Regulation

0.05 %

Load Regulation

0.5 %

Voltage Regulation Accuracy

0.5 %

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Minimum Operating Temperature

- 40 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Limit (min)

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

TC10733.6VCH713

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5.0

5.1

Integrated thermal protection circuitry shuts the

regulator off when die temperature exceeds 160°C.

The regulator remains off until the die temperature

drops to approximately 150°C.

5.2

The amount of power the regulator dissipates is

primarily a function of input and output voltage, and

output current. The following equation is used to

calculate worst-case actual power dissipation:

EQUATION 5-1:

The

(Equation

temperature (T

perature (T

tion-to-air (θ

of approximately 220°C/Watt.

EQUATION 5-2:

Where:

LOAD

OUT

maximum

where all terms are previously defined.

THERMAL CONSIDERATIONS

Thermal Shutdown

Power Dissipation

MAX

MIN

5-2) is a function of the maximum ambient

MAX

= Worst-case actual power dissipation

= Maximum voltage on V

= Minimum regulator output voltage

= Maximum output (load) current

). The 6-Pin SOT-23 package has a θ

DMAX

) and the thermal resistance from junc-

≈

MAX

), the maximum allowable die tem-

INMAX

allowable

= (T

JMAX

– V

OUTMIN

– T

AMAX

power

LOADMAX

)

dissipation

Equation 5-1

Equation 5-2

within limits. For example:

Given:

Find:

Actual power dissipation:

Maximum allowable power dissipation:

In this example, the TC1072 dissipates a maximum of

20.7 mW; below the allowable limit of 318 mW. In a

similar manner,

used to calculate maximum current and/or input

voltage limits.

5.3

The primary path of heat conduction out of the package

is via the package leads. Therefore, layouts having a

ground plane, wide traces at the pads, and wide power

supply bus lines combine to lower θ

increase the maximum allowable power dissipation

limit.

≈

= [(3.0 x 1.05) – (2.7 x 0.975)] x 40 x 10

= 20.7 mW

LOAD

OUT

DMAX

MAX

INMAX

MAX

1. Actual power dissipation

2. Maximum allowable dissipation

Layout Considerations

MIN

MAX

= (125 – 55)

= 318 mW

= (T

– V

TC1072/TC1073

to ensure regulator thermal operation is

can be used in conjunction with

JMAX

Equation 5-1

OUTMIN

220

= 3.0V ±5%

= 2.7V – 2.5%

= 40 mA

= 125°C

= 55°C

– T

AMAX

LOADMAX

)

and

Equation 5-2

DS21354D-page 13

–3

and therefore

can be

TC1073-3.6VCH713 Microchip Technology, TC1073-3.6VCH713 Datasheet - Page 13

TC1073-3.6VCH713

Specifications of TC1073-3.6VCH713

Available stocks

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