A8514KLPTR-T Allegro Microsystems Inc, A8514KLPTR-T Datasheet - Page 28

A8514KLPTR-T

Manufacturer Part Number

A8514KLPTR-T

Description

IC LED DVR WHT 4X80MA 16-ETSSOP

Manufacturer

Allegro Microsystems Inc

Datasheets

1.A8514KLPTR-T.pdf (32 pages)

2.A8514KLPTR-T.pdf (35 pages)

Specifications of A8514KLPTR-T

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Available stocks

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Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

A8514KLPTR-T

Manufacturer:

ALLEGRO/雅丽高

Quantity:

20 000

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The reverse voltage rating should be such that during operation

condition, the voltage rating of the device is larger than the maxi-

mum output voltage. In this case it is V

The peak current through the diode is calculated as:

The third major component in deciding the switching diode is the

reverse current, I

is especially important when PWM dimming is implemented.

During PWM off-time the boost converter is not switching. This

results in a slow bleeding off of the output voltage, due to leakage

currents. I

tures. On the diode that was selected in this design, the current

varies between 1 and 100 μA.

Step 7

must be chosen such that they can provide filtering for both the

boost converter and for the PWM dimming function. The biggest

factors that contribute to the size of the output capacitor are:

PWM dimming frequency and PWM duty cycle. Another major

contributor is leakage current, I

tion of the OVP leakage current as well as the reverse current of

the switching diode. In this design the PWM dimming frequency

is 200 Hz and the minimum duty cycle is 1%. Typically, the volt-

age variation on the output, V

be less than 250 mV, so that no audible hum can be heard. The

capacitance can be calculated as follows:

A capacitor larger than 3.96 μF should be selected due to degra-

dation of capacitance at high voltages on the capacitor. A ceramic

4.7 μF 50 V capacitor is a good choice to fulfill this requirement.

Corresponding capacitors include:

OUT

Choosing the output capacitors. The output capacitors

Vendor

Murata

can be a large contributor, especially at high tempera-

200 μA

= 0.94 (A) + 0.36 (A) / 2 = 1.12 A

= I

, characteristic of the diode. This characteristic

4.7 μF 50 V

2.2 μF 50 V

(max) +

Value

PWM(dimming)

200 Hz

1 – D(min)

COUT

1 – 0.01

ΔI

. This current is the combina-

GRM32ER71H475KA88L

GRM31CR71H225KA88L

, during PWM dimming must

Lused

0.250 V

COUT

OUT(OVP)

Part number

3.96 μF

Wide Input Voltage Range, High Efficiency

(23)

(24)

The rms current through the capacitor is given by:

The output capacitor must have a current rating of at least

390 mA. The capacitor selected in this design was a 4.7 μF 50 V

capacitor with a 3 A current rating.

Step 8

selected such that it provides a good filtering of the input voltage

waveform. A good rule of thumb is to set the input voltage ripple

ΔV

input capacitor requirements are as follows:

The rms current through the capacitor is given by:

A good ceramic input capacitor with ratings of 2.2 μF 50 V or

4.7 μF 50 V will suffice for this application. Corresponding

capacitors include:

COUT

to be 1% of the minimum input voltage. The minimum

Selecting input capacitor. The input capacitor must be

rms =

Vendor

Murata

rms =

0.240 (A)

Fault Tolerant LED Driver

OUT

0.240 (A) ×

OUT

(1 – D)×

(1 – 0.72)×

2 (MHz) 0.1 (V)

4.7 μF 50 V

2.2 μF 50 V

∆I

Value

0.36 (A)

D(max) +

Lused

∆I

0.72 +

∆V

(max)

115 Northeast Cutoff

1.508.853.5000; www.allegromicro.com

Allegro MicroSystems, Inc.

Worcester, Massachusetts 01615-0036 U.S.A.

Lused

0.94 (A)

1 – D(max)

0.36 (A)

1 – 0.72

0.94 (A) × 12

0.36 (A)

GRM32ER71H475KA88L

GRM31CR71H225KA88L

(max)

∆I

Lused

Part number

0.095 A

× 12

0.23 μF

0.39 A

(25)

(26)

(27)

A8514KLPTR-T Allegro Microsystems Inc, A8514KLPTR-T Datasheet - Page 28

A8514KLPTR-T

Specifications of A8514KLPTR-T

Available stocks

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