Al8807q, Application information – Diodes AL8807Q User Manual

AL8807Q

Document number: DS36904 Rev. 1 - 2

13 of 16

www.diodes.com

March 2014

© Diodes Incorporated

AL8807Q

Application Information

(cont.)

Inductor Selection

(cont.)

The following equations can be used as a guide, with reference to Figure 1 - Operating waveforms.

Switch ‘On’ time Switch ‘Off’ time





R

r

R

x

I

V

V

I

L

t

SW

L

S

AVG

LED

IN

ON

















r

R

x

I

V

V

I

L

t

L

S

AVG

D

LED

OFF











Where:
L is the coil inductance (H)
r

L

is the coil resistance (Ω)R

S

is the current sense resistance (Ω)

I

avg

is the required LED current (A)

∆I is the coil peak-peak ripple current (A) {Internally set to 0.3 x Iavg}
V

IN

is the supply voltage (V)

V

LED

is the total LED forward voltage (V)

R

SW

is the switch resistance (Ω) {=0.5Ω nominal}

V

D

is the diode forward voltage at the required load current (V)

Thermal Considerations

For continuous conduction mode of operation, the absolute maximum junction temperature must not be exceeded. The maximum power dissipation
depends on several factors: the thermal resistance of the IC package



JA

, PCB layout, airflow surrounding the IC, and difference between junction

and ambient temperature.

The maximum power dissipation can be calculated using the following formula:

P

D(MAX)

= (T

J(MAX)

− T

A

) /



JA

T

J(MAX)

is the maximum operating junction temperature,

T

A

is the ambient temperature, and



JA

is the junction to ambient thermal resistance.

The recommended maximum operating junction temperature, T

J

, is 125°C and so maximum ambient temperature is determined by the AL8807Q’s

junction to ambient thermal resistance,



JA

and device power dissipation. To support high LED drive at higher ambient temperatures the AL8807Q

has been packaged in thermally enhanced MSOP-8EP package.



JA

, is layout dependent and the AL8806Q’s



JA

in MSOP-8EP on a

51 x 51mm double layer PCB with 2oz copper standing in still air is
approximately 69°C/W.

Therefore the maximum power dissipation at T

A

= 25°C is:





W

45

.

1

W

/

C

69

C

25

C

125

P

)

MAX

(

D













Figure 35, shows the power derating of the AL8807QMP on an FR4
51x51mm PCB with 2oz copper standing in still air.

As the ambient temperature increases and/or the PCB area reduces
the maximum allowable power dissipated by the AL8807Q will
decrease.

Figure 35 Derating Curve for Different PCB

MSOP-8EP

0

200

400

600

800

1000

1200

1400

1600

-40 -25 -10

5

20

35

50

65

80

95 110 125

Ambient temperature (°C)

P

o

w

e

r di

ssi

pat

ion

(

m

W

)