AN1149-3A Lumileds Lighting, LLC, AN1149-3A Datasheet - Page 4

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AN1149-3A

Manufacturer Part Number

AN1149-3A

Description

Advanced Electrical Design Models

Manufacturer

Lumileds Lighting, LLC

Datasheet

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In most situations, the worst case range of

forward current and forward voltage can be

estimated with only two permutations of the

diode equation model:

Advanced Thermal Modeling Equations

Note that, Equations #3.3 in AB20 3 or #3.6 in

AB20 3 can be combined with Equation #3.9 in

AB20 3 to derive the maximum DC forward

current, I

and thermal resistance, Rθ

of the SuperFlux LED Data Sheet.

Or written as a standard quadratic equation:

R

Thus, the positive root solution of I

to:

θ

T

JA

V

J MAX

R

(I

(I

(I

F min

S HH

F1

F1

F1

, V

, V

, V

≅ T

≅ T

I

F MAX

(n

(n

(n

= VDIODE (I

= VDIODE (I

F MAX

F1 max

F1 max

F1 max

HLH

HHL

HHH

A

A

2

+ R

+ R

, versus ambient temperature, T

+ R

, I

, I

), (I

), (I

), (I

, I

O HLH

O HHL

O HHH

θ

F2

F2

F2

θ

θ

JA

, V

, V

, V

JA

JA

V

, R

, R

, R

O HH

I

I

F

F MAX

F MAX

F2

F2 max

F2 max

F

, n

, n

′

′

′

min), (I

S HLH

S HHL

I

S HHH

F MAX

LLL

), (I

), (I

MIN

V

(V

)

)

, I

F MAX

, I

)

O HH

+ T

JA

F3

F3

O LLL

O MIN

, shown in Figure 4

, V

, V

F3

A

, V

+ R

– T

, R

F3

F3 max

, R

F3 max

min)

J MAX

S HH

′

S LLL

′

F MAX

S MIN

)

⇒

I

)

F MAX

≅

)

⇒

⇒

)

is equal

0

)

A

,

4

Figure 3.4A shows Equation #3.6A graphed as a

function of T

emitter with a maximum expected forward

voltage (i.e. V

T

ohms were used for Figure 3.4A. Note that

Figure 3.4A is the same as Figure 4a, “HPWA

XX00 Maximum DC Forward Current vs. Ambient

Temperature” graph, in the SuperFlux LED Data

Sheet.

Equations #3.7 in AB20 3, #3.8 in AB20 3, and

#3.9 in AB20 3 can be combined together in

different ways to model the luminous flux (or

luminous intensity) of LED emitters due to the

effects of internal self heating (i.e. R

ambient temperature. Equation #3.7A models

the expected reduction in luminous flux due to

internal self heating compared to the

For analyzing the operation of an electronic

circuit, it is convenient to be able to write the

electrical forward characteristics of a component

both in terms of forward voltage as a function of

forward current as well as forward current as a

function of forward voltage. The difficulty in using

the diode equation (with the R´

a function of V

iterative process. In addition, the reverse

saturation current, I

magnitude over the automotive temperature

range so this effect must be included to properly

model the forward characteristics of the LED

emitter over temperature.

J MAX

V

F max

= 125

= VDIODE (I

= VDIODE (I

°

A

C, V

F

and R

= 2.67 V at 70 mA). Values of

F

can only be solved through an

O HH

θ

O

F

, varies by several orders of

F

JA

= 1.83 V, and R

, n

, n

for an HPWA xH00 LED

MAX

HHH

, I

, I

O MAX

O HHH

S

term) is that I

, R

, R

θ

′

′

S MAX

S HHH

JA

S HH

P

D

)

) and

)

= 12

F

as

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