MB39C015 Datasheet, PDF(17/43 Page) Cypress Semiconductor

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MB39C015 Datasheet, PDF (17/43 Pages) Cypress Semiconductor – High efficiency : 96% (Max)

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MB39C015

The IC's control circuit loss (PCONT) is extremely small, less than 100 mW (with no load).

As the IC contains FETs which can switch faster with less power, the continuity loss (PC) is more predominant as the loss during heavy-

load operation than the control circuit loss (PCONT) and switching loss (PSW) .

Furthermore, the continuity loss (PC) is divided roughly into the loss by internal SW FET ON-resistance and by external inductor series

resistance.

PC = IOUT2 Ã (RDC + D Ã RONP + (1 - D) Ã RONN)

: Switching ON-duty cycle ( = VOUT / VIN)

RONP : Internal P-ch SW FET ON resistance

RONN : Internal N-ch SW FET ON resistance

RDC : External inductor series resistance

IOUT : Load current

The above formula indicates that it is important to reduce RDC as much as possible to improve efficiency by selecting

components.

10.4 Power dissipation and heat considerations

The IC is so efficient that no consideration is required in most cases. However, if the IC is used at a low power supply voltage, heavy

load, high output voltage, or high temperature, it requires further consideration for higher efficiency.

The internal loss (P) is roughly obtained from the following formula :

P = IOUT2 Ã (D Ã RONP + (1 - D) Ã RONN)

RONP

RONN

IOUT

: Switching ON-duty cycle ( = VOUT / VIN)

: Internal P-ch SW FET ON resistance

: Internal N-ch SW FET ON resistance

: Output current

The loss expressed by the above formula is mainly continuity loss. The internal loss includes the switching loss and the control circuit

loss as well but they are so small compared to the continuity loss they can be ignored.

In this IC with RONP greater than RONN, the larger the on-duty cycle, the greater the loss.

When assuming VIN ï½ 3.7 V, Ta ï½ ï« 70 Â°C , for example, RONP ï½ 0.36 â¦ and RONN ï½ 0.30 â¦ according to the graph âMOS FET

ON resistance vs. Operating ambient temperatureâ. The IC's internal loss P is 123 mW at VOUT ï½ 2.5 V and IOUT ï½ 0.6 A. According

to the graph âPower dissipation vs. Operating ambient temperatureâ, the power dissipation at an operating ambient temperature Ta

of ï« 70 Â°C is 300 mW and the internal loss is smaller than the power dissipation.

Document Number: 002-08364 Rev. *A

Page 17 of 43

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