EL7464CRE-T13 ELANTEC [Elantec Semiconductor], EL7464CRE-T13 Datasheet - Page 16

EL7464CRE-T13

Manufacturer Part Number

EL7464CRE-T13

Description

Monolithic 4 Amp DC:DC Step-down Regulator

Manufacturer

ELANTEC [Elantec Semiconductor]

Datasheet

1.EL7464CRE-T13.pdf (18 pages)

Current page: 16 of 18
Download datasheet (2Mb)

EL7564C

Monolithic 4 Amp DC:DC Step-down Regulator

Thermal Management

The EL7564CM utilizes “fused lead” packaging tech-

nology in conjunction with the system board layout to

achieve a lower thermal resistance than typically found

in standard SO20 packages. By fusing (or connecting)

multiple external leads to the die substrate within the

package, a very conductive heat path is created to the

outside of the package. This conductive heat path MUST

then be connected to a heat sinking area on the PCB in

order to dissipate heat out and away from the device.

The conductive paths for the EL7564CM package are

the fused leads: # 6, 7, 11, 12, and 13. If a sufficient

amount of PCB metal area is connected to the fused

package leads, a junction-to-ambient resistance of

43°C/W can be achieved (compared to 85°C/W for a

standard SO20 package). The general relationship

between PCB heat-sinking metal area and the thermal

resistance for this package is shown in the Performance

Curves section of this data sheet. It can be readily seen

that the thermal resistance for this package approaches

an asymptotic value of approximately 43°C/W without

any airflow, and 33°C/W with 100 LFPM airflow. Addi-

tional information can be found in Application Note #8

(Measuring the Thermal Resistance of Power Surface-

Mount Packages). For a thermal shutdown die junction

temperature of 135°C, and power dissipation of 1.5W,

the ambient temperature can be as high as 70°C without

airflow. With 100 LFPM airflow, the ambient tempera-

ture can be extended to 85°C.

The EL7564CRE utilizes the 28-pin HTSSOP package.

The majority of heat is dissipated through the heat pad

exposed at the bottom of the package. Therefore, the

heat pad needs to be soldered to the PCB. The thermal

resistance for this package is better than that of SO20.

Actual test results are available from Elantec Applica-

tions staff. The actual junction temperature can be

measured at VTJ pin.

Since the thermal performance of the IC is heavily

dependent on the board layout, the system designer

should exercise care during the design phase to ensure

that the IC will operate under the worst-case environ-

mental conditions.

Layout Considerations

The layout is very important for the converter to func-

tion properly. Power Ground ( ) and Signal Ground (---)

should be separated to ensure that the high pulse current

in the Power Ground never interferes with the sensitive

signals connected to Signal Ground. They should only

be connected at one point (normally at the negative side

of either the input or output capacitor.)

The trace connected to the FB pin is the most sensitive

trace. It needs to be as short as possible and in a “quiet”

place, preferably between PGND or SGND traces.

In addition, the bypass capacitor connected to the VDD

pin needs to be as close to the pin as possible.

The heat of the chip is mainly dissipated through the

PGND pins. Maximizing the copper area around these

pins is preferable. In addition, a solid ground plane is

always helpful for the EMI performance.

The demo board is a good example of layout based on

these principles. Please refer to the EL7564C Applica-

tion Brief for the layout.

EL7464CRE-T13 ELANTEC [Elantec Semiconductor], EL7464CRE-T13 Datasheet - Page 16

EL7464CRE-T13

Related parts for EL7464CRE-T13