GM6603-1.8TA3R GAMMA [Gamma Microelectronics Inc.], GM6603-1.8TA3R Datasheet - Page 7

GM6603-1.8TA3R

Manufacturer Part Number

GM6603-1.8TA3R

Description

3.0A LOW DROPOUT PRECISION REGULATOR

Manufacturer

GAMMA [Gamma Microelectronics Inc.]

Datasheet

1.GM6603-1.8TA3R.pdf (11 pages)

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Output Voltage Sensing

GM6603 series is a three-terminal regulator, so it cannot provide true remote load sensing. Load

regulation is limited by the resistance of the conductors connecting the regulator to the load. For best

results, GM6603 should be connected as shown 1n F1gure 2.

Calculating Power Dissipation and Heat Sink Requirements

GM6603 series include thermal shutdown and current limit circuitry to protect the devices. However, high

power regulators normally operate at high junction temperatures so it is important to calculate the power

dissipation and junction temperatures accurately to be sure to use an adequate heat sink. The case is

connected to V

compound should always be used with high current regulators like GM6603.

The thermal characteristics of an IC depend on four factors:

The relationship of these four factors is expressed by equation (1):

Maximum ambient temperature and power dissipation are determ1ned by the design while the maximum

junction temperature and thermal resistance depend on the manufacturer and the package type.

The maximum power dissipation for a regulator is expressed by equation (2):

A heat sink effect1vely increases the surface area of the package to improve the flow of heat away

from the IC into the air. Each material in the heat flow path between the IC and the environment has a

thermal resistance. Like series electrical resistances, these resistance are summed to determine θ

the total thermal resistance between the junction and the air. This is expressed by equation (3):

The value for θ

value for θ

regulator such as GM6603, the majority of the heat is generated in the power transistor sect1on.

where:

D(MAX)

OUT(MAX)

= T

IN(MAX)

OUT(MIN)

= θ

is the max1mum quiescent current at I

is the thermal resistance of Junction to Case,

is the thermal resistance of Case to Heat Sink,

is the thermal resistance of Heat Sink to Ambient air.

Maximum Ambient Temperature T

Power Dissipation P

Maximum Junction Temperature T

Thermal Resistance Junction to amb1ent θ

= (V

+ P

GM6603-3.3

is 3.5°C/W for a given package typed based

+ θ

OUT

is the maximum input voltage,

Figure 1.

this Grounding Scheme.

is the maximum output current

is the minimum output voltage,

(a) Fixed version

IN(MAX)

GND

is calculated using equation (3) and the result can be substituted in equation (1). The

x θ

on GM6603, so electrical isolation may be required for some applicat1ons. Thermal

+ θ

– V

Conductor Parasitic Resistance Effects are Minimized by

OUT(MIN)

OUT

(Watts)

) x I

Conductor

Parasitic

Resistance

OUT(MIN)

LOAD

+ V

OUT(MAX)

(°C)

IN(MIN)

x I

on an average d1ie size. For a high current

(b) Adjustable version

GM6603-A

ADJ

PRECISION REGULATOR

3.0A LOW DROPOUT

OUT

GM6603

Conductor

Parasitic

Resistance

LOAD

GM6603-1.8TA3R GAMMA [Gamma Microelectronics Inc.], GM6603-1.8TA3R Datasheet - Page 7

GM6603-1.8TA3R

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