MCP1703T-1202E/CB Microchip Technology, MCP1703T-1202E/CB Datasheet - Page 14

MCP1703T-1202E/CB

Manufacturer Part Number

MCP1703T-1202E/CB

Description

IC REG LDO 1.2V 200MA SOT-23A

Manufacturer

Microchip Technology

Datasheets

1.SOT89-3EV-VREG.pdf (28 pages)

2.MCP1703T-3302EMB.pdf (24 pages)

3.MCP1703T-1502EDB.pdf (32 pages)

Specifications of MCP1703T-1202E/CB

Regulator Topology

Positive Fixed

Voltage - Output

1.2V

Voltage - Input

2.7 ~ 16 V

Number Of Regulators

Current - Output

50mA (Min)

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

SOT-23A-3

Primary Input Voltage

16V

Output Voltage Fixed

1.2V

Dropout Voltage Vdo

750mV

No. Of Pins

Output Current

250mA

Operating Temperature Range

-40Â°C To +125Â°C

Number Of Outputs

Polarity

Positive

Input Voltage Max

16 V

Output Voltage

1.2 V

Output Type

Fixed

Dropout Voltage (max)

0.65 V at 250 mA

Line Regulation

0.1 % / V

Load Regulation

1 %

Voltage Regulation Accuracy

2 %

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Minimum Operating Temperature

- 40 C

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Dropout (typical)

Current - Limit (min)

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

MCP1703T-1202E/CBTR

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

MCP1703T-1202E/CB

Manufacturer:

MICROCHIP/微芯

Quantity:

20 000

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MCP1703

6.3

Internal power dissipation, junction temperature rise,

junction temperature and maximum power dissipation

are calculated in the following example. The power

dissipation, as a result of ground current, is small

enough to be neglected.

6.3.1

Device Junction Temperature Rise

The internal junction temperature rise is a function of

internal power dissipation and the thermal resistance

from junction to ambient for the application. The thermal

resistance from junction to ambient (Rθ

from an EIA/JEDEC standard for measuring thermal

resistance for small surface mount packages. The EIA/

JEDEC specification is JESD51-7, “High Effective Ther-

mal Conductivity Test Board for Leaded Surface Mount

Packages”. The standard describes the test method

and board specifications for measuring the thermal

resistance from junction to ambient. The actual thermal

resistance for a particular application can vary depend-

ing on many factors, such as copper area and thick-

ness. Refer to AN792, “A Method to Determine How

Much Power a SOT23 Can Dissipate in an Application”,

(DS00792), for more information regarding this

subject.

Junction Temperature Estimate

To estimate the internal junction temperature, the

calculated temperature rise is added to the ambient or

offset temperature. For this example, the worst-case

junction temperature is estimated below.

DS22049A-page 14

Package

Package Type = SOT-23A

Input Voltage

LDO Output Voltages and Currents

Maximum Ambient Temperature

Internal Power Dissipation

Internal Power dissipation is the product of the LDO

output current times the voltage across the LDO

to V

LDO(MAX)

J(RISE)

JRISE

A(MAX)

Voltage Regulator

OUT

LDO

POWER DISSIPATION EXAMPLE

= P

= 152.7 milli-Watts x 336.0

= 51.3

= 2.7V to 4.8V

= 1.8V

= 50 mA

= +40°C

= (V

= (4.8V - (0.97 x 1.8V)) x 50 mA

= 152.7 milli-Watts

TOTAL

IN(MAX)

x Rq

- V

OUT(MIN)

) x I

C/Watt

) is derived

OUT(MAX)

Maximum Package Power Dissipation at +40°C

Ambient Temperature

6.4

The MCP1703 can be used not only as a regulator, but

also as a low quiescent current voltage reference. In

many microcontroller applications, the initial accuracy

of the reference can be calibrated using production test

equipment or by using a ratio measurement. When the

initial accuracy is calibrated, the thermal stability and

line regulation tolerance are the only errors introduced

by the MCP1703 LDO. The low-cost, low quiescent

current and small ceramic output capacitor are all

advantages when using the MCP1703 as a voltage

reference.

FIGURE 6-2:

Voltage Reference.

6.5

For some applications, there are pulsed load current

events that may exceed the specified 250 mA

maximum specification of the MCP1703. The internal

current limit of the MCP1703 will prevent high peak

load demands from causing non-recoverable damage.

The 250 mA rating is a maximum average continuous

rating. As long as the average current does not exceed

250 mA, pulsed higher load currents can be applied to

the MCP1703

MCP1703 is 500 mA (T

SOT-23A (336.0°C/Watt = Rθ

SOT-89 (75°C/Watt = Rθ

SOT-223 (62.9°C/Watt = Rθ

2 µA Bias

1 µF

D(MAX)

Bridge Sensor

Voltage Reference

Pulsed Load Applications

MCP1703

GND

= T

= 91.3°C

= (125°C - 40°C) / 336°C/W

= 253 milli-Watts

= (125°C - 40°C) / 75°C/W

= 1.133 Watts

= (125°C - 40°C) / 62.9°C/W

= 1.35 Watts

OUT

Ratio Metric Reference

The typical current limit for the

JRISE

Using the MCP1703 as a

1 µF

OUT

+ T

+25°C).

A(MAX)

)

ADO

AD1

Microcontroller

REF

PIC

MCP1703T-1202E/CB Microchip Technology, MCP1703T-1202E/CB Datasheet - Page 14

MCP1703T-1202E/CB

Specifications of MCP1703T-1202E/CB

Available stocks

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