AS1113-BQFT austriamicrosystems, AS1113-BQFT Datasheet - Page 19

AS1113-BQFT

Manufacturer Part Number

AS1113-BQFT

Description

IC DRIVER LED 16-CHAN 28-TQFN

Manufacturer

austriamicrosystems

Type

General Purposer

Datasheet

1.AS1113-BQFT.pdf (24 pages)

Specifications of AS1113-BQFT

Constant Current

Yes

Topology

16-Bit Shift Register, PWM

Number Of Outputs

Internal Driver

Yes

Type - Primary

General Purpose

Frequency

50MHz

Voltage - Supply

3 V ~ 5.5 V

Voltage - Output

15V

Mounting Type

Surface Mount

Package / Case

28-WQFN

Operating Temperature

-40°C ~ 85°C

Current - Output / Channel

50mA

Internal Switch(s)

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Efficiency

Current page: 19 of 24
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AS1113

Datasheet - A p p l i c a t i o n I n f o r m a t i o n

Constant Current

In LED display applications, the AS1113 provides virtually no current variations from channel-to-channel and from

AS1113-to-AS1113. This is mostly due to 2 factors:

Adjusting Output Current

The AS1113 scales up the reference current (I

put port. As shown in

ble to define it as target current (I

Where:

The magnitude of current (as a function of R

page 7

Package Power Dissipation

The maximum allowable package power dissipation (PD) is determined as:

When 16 output channels are turned on simultaneously, the actual package power dissipation is:

Therefore, to keep P

Where:

Delayed Outputs

The AS1113 has graduated delay circuits between outputs. These delay circuits can be found between OUTNn and

constant current block.

The fixed delay time is 20 ns (typ) where OUTN0 has no delay, OUTN1 has 20ns delay, OUTN2 has 40ns delay ...

OUTN15 has 300ns delay. This delay prevents large inrush currents, which reduce power supply bypass capacitor

requirements when the outputs turn on

Switching-Noise Reduction

LED drivers are frequently used in switch-mode applications which normally exhibit switching noise due to parasitic

inductance on the PCB.

Load Supply Voltage

Considering the package power dissipation limits (see EQ 4:6), the AS1113 should be operated within the range of

For example, if V

the lowest possible supply voltage or a voltage reducer (V

Note: Resistors or zener diodes can be used as a voltage reducer as shown in

www.austriamicrosystems.com/LED-Driver-ICs/AS1113

REXT

EXT

= 150ºC

While I

AS1113 devices.

In the saturation region, the characteristic curve of the output stage is flat

put current can be kept constant regardless of the variations of LED forward voltages (V

= 0.4 to 1.0V.

= (V

is the resistance of the external resistor connected to pin REXT.

is the voltage on pin REXT.

shows the relationship curve between the I

LED

OUT

-V

≥ 10mA, the maximum current skew is less than ±3% between channels and less than ±6% between

) - V

LED

DROP

D(ACT)

is higher than 5V, V

Figure 3 on page 7

REF

= V

≤ P

REXT

D(MAX)

OUT

OUT TARGET

= {[(T

D(ACT)

, the maximum allowed output current as a function of duty cycle is:

EXT

(see Figure 10 on page 10)

(if the other end of R

the output current in the saturation region is extremely flat so that it is possi-

-T

= (I

D(MAX)

may be so high that P

AMB

EXT

). I

REF

= I

OUT TARGET

)/R

) is around 50.52mA at 372Ω and 25.26mA at 744Ω.

REXT

REF

) set by external resistor (R

= (T

OUT TARGET

TH(J-A)

*15 = (1.253V/R

) + (I

= 1.253V

-T

Revision 1.04

]-(I

AMB

DROP

OUT

can be calculated by:

)/R

EXT

of each channel and the corresponding external resistor

*Duty*V

) should be used. The voltage reducer allows

TH(J-A)

D(ACT)

is connected to ground)

)}/V

EXT

> P

*16)

)*15

/Duty/16

D(MAX)

EXT

(see Figure 5 on page

) to sink a current (I

Figure

where V

22.

= V

LED

OUT

7). Thus, the out-

- V

Figure 3 on

) at each out-

. In this case,

(EQ 1)

(EQ 2)

(EQ 3)

(EQ 4)

(EQ 5)

(EQ 6)

19 - 24

AS1113-BQFT austriamicrosystems, AS1113-BQFT Datasheet - Page 19

AS1113-BQFT

Specifications of AS1113-BQFT

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