AL5809-120P1-7_技术文档

AL5809

60V Two Terminal Constant Current LED Driver

PowerDI

Description

Pin Assignments

The AL5809 is a constant current linear LED driver and it provides a

cost-effective two pin solution. It has an excellent temperature

stability of 20ppm/°C and the current accuracy ±5% regulated over a

wide voltage and temperature range. The AL5809 comes in various

fixed output current versions removing the need for external current

setting resistors creating a simple solution for the linear driving of

LEDs. It supports both the high-side and low-side driving of LED

chains.

1

IN

AL5809

The AL5809 turns on when the voltage between IN and OUT swings

from 2.5V up to 60V enabling it drive long LED chains. The floating

ground, 60V Voltage rating between Input and Output pins designed

to withstand the high peak voltage incurred in offline applications.

OUT

2

The AL5809 is available in either thermally robust package

PowerDI123 or SOD-123 package.

Features

Applications



2.5V to 60V Operating Voltage Between Two Terminals



Offline LED Lamps

Robust Power Package Up to 1.2W for PowerDI^®-123

LED Power Supplies

White Goods



-40°C to +125°C Temperature Range

LED Signs

±5% LED Current Tolerance Over-Temperature

Instrumentation Illumination

15mA, 20mA, 25mA, 30mA, 40mA, 50mA, 60mA, 90mA,

100mA, 120mA, and 150mA Available in PowerDI123 Package

15mA, 20mA, 25mA, 30mA, 40mA and 50mA available in SOD-

123 Package, Other Current Options Available by Request

Constant Current with Low Temperature Drift and High Power

Supply Rejection Ratio



Totally Lead-Free & Fully RoHS Compliant (Notes 1 & 2)

Halogen and Antimony Free. “Green” Device (Note 3)

Notes:

1. No purposely added lead. Fully EU Directive 2002/95/EC (RoHS) & 2011/65/EU (RoHS 2) compliant.

2. See http://www.diodes.com/quality/lead_free.html for more information about Diodes Incorporated’s definitions of Halogen- and Antimony-free, "Green"

and Lead-free.

3. Halogen- and Antimony-free "Green” products are defined as those which contain <900ppm bromine, <900ppm chlorine

(<1500ppm total Br + Cl) and <1000ppm antimony compounds.

POWERDI is a registered trademark of Diodes Incorporated.

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December 2016

AL5809

Document number: DS36625 Rev. 5 - 2

AL5809

Typical Applications Circuit

VIN

1

IN

Low Side LED String

AL5809

1

IN

OUT

2

AL5809

High Side LED String

OUT

2

Pin Descriptions

Number

Function

Name

(PowerDI123)

LED Current Input Terminal.

In

1

2

For low side LED string application, connect the LED cathode terminal to the “In” terminal. For high side LED

string application, connect the LED anode terminal to the “Out” terminal.

LED Current Output Terminal.

For low side LED string application, connect the LED anode terminal to the “Out” terminal. For high side LED

string application, connect the LED cathode terminal to the “Out” terminal.

Out

Functional Block Diagram

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December 2016

AL5809

Document number: DS36625 Rev. 5 - 2

AL5809

Absolute Maximum Ratings

Symbol

V_InOut

Parameters

Ratings

-0.3 to +80

180

Unit

V

“In” Voltage Relative to “Out” Pin

LED Current from “In” to “Out”

Human Body Model ESD Protection

Machine Model ESD Protection

Operating Junction Temperature

Storage Temperature

mA

kV

V

I_InOut

ESD HBM

ESD MM

T_J

4

400

-40 to +175

-55 to +150

°C

T_ST

Caution: Stresses greater than the 'Absolute Maximum Ratings' specified above, may cause permanent damage to the device. These are stress ratings only;

functional operation of the device at these or any other conditions exceeding those indicated in this specification is not implied. Device reliability may be

affected by exposure to absolute maximum rating conditions for extended periods of time.

Semiconductor devices are ESD sensitive and may be damaged by exposure to ESD events. Suitable ESD precautions should be taken when

handling and transporting these devices.

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December 2016

AL5809

Document number: DS36625 Rev. 5 - 2

AL5809

Package Thermal Data

θ_JC

θ_JA

P_DIS

Package

Thermal Resistance

Junction-to-Case

Thermal Resistance

Junction-to-Ambient

T_A= +25°C, T_J= +125°C

PowerDI123

SOD-123

27.15°C/W

17.81°C/W

69.56°C/W

148.61°C/W (Note 4)

81.39°C/W (Note 5)

278.42°C/W (Note 6)

0.68W

1.24W

0.36W

Recommended Operating Conditions

Symbol

V_InOut

I_InOut

Parameter

“In” Voltage Range Relative to “Out” Pin

LED Current (Note 7)

Min

2.5

15

Max

60

Unit

V

150

+125

mA

°C

Operating Ambient Temperature Range (Note 8)

-40

T_A

Electrical Characteristics (V_InOut= 3.5V) (Note 9)

Symbol

Parameter

Conditions

Min

Typ

Max

Unit

In-Out Supply Voltage

-

2.5

-

60

V

V_InOut

T_A= -40°C to +125°C

AL5809-15S1-7

AL5809-15P1-7

14.25

19

15

20

25

15.75

T_A= -40°C to +125°C

AL5809-20S1-7

AL5809-20P1-7

21

T_A= -40°C to +125°C

AL5809-25S1-7

AL5809-25P1-7

23.75

26.25

AL5809-30S1-7

AL5809-30P1-7

28.5

38

30

40

50

31.5

42

T_A= -40°C to +125°C

AL5809-40S1-7

AL5809-40P1-7

I_INOutCurrent Accuracy

(±5% for over temperature)

mA

I_InOut

AL5809-50S1-7

AL5809-50P1-7

47.5

52.5

AL5809-60P1-7

AL5809-90P1-7

AL5809-100P1-7

AL5809-120P1-7

57

85.5

95

60

90

63

T_A= -40°C to +125°C

94.5

105

126

100

120

114

AL5809-150P1-7

142.5

-

150

1

157.5

-

T_A= -40°C to +125°C

T_A= +25°C

V_InOut= 2.5V to 60V

(Note 10)

%

I_LINE

I_InOutCurrent Line Regulation

Minimum Power Up Voltage

Minimum On pulse width

Minimum Off pulse width

-

1.5

-

V

V_MIN

Increase V_InOut(Note 11)

(Note 12, 13)

T_A= -40°C to +125°C

-

500

µS

t_{ON_MIN}

t_{OFF_MIN}

(Note 12, 13)

Junction Temperature

(Note 14)

Thermal Shutdown

-

+165

+30

-

°C

T_SHDN

Thermal Shutdown Hysteresis

-

T_HYS

Notes:

4. Test condition for PowerDI-123: Device mounted on 25.4mm x 25.4mm FR-4 PCB (10mm x 10mm 1oz copper, minimum recommended pad layout on

top layer and thermal vias to bottom layer ground plane). For better thermal performance, larger copper pad for heat-sink is needed.

5. When mounted on 50.8mm x 50.8mm GETEK PCB with 25.4mm x 25.4mm copper pads.

6. Test condition for SOD-123: Device mounted on FR-4 PCB with 50.8mm x 50.8mm 2oz copper, minimum recommended pad layout on top layer and

thermal vias to bottom layer with maximum area ground plane. For better thermal performance, larger copper pad for heat-sink is needed.

7. The LED operating current is determined by the AL5809 current option index XXX, AL5809-XXXS/P1-7.

8. The Maximum LED current is also limited by ambient temperature and power dissipation such that junction temperature should be kept less than or equal

to +125°C.

9. All voltages unless otherwise stated are measured with respect to OUT pin.

10. Measured by the percentage degree of LED current variation when V

11. Apply the power linearly to the chip until the device starts to turn on.

varies from 2.5V to 60V each current option.

InOut

12. t_{ON_MIN}time includes the delay and the rise time needed for I_OUTto reach 90% of its final value. t_{OFF_MIN}time is the time needed for I_OUTto drop below

10% of its final value.

13. This parameter only guaranteed by design, not tested in production.

14. Ambient temperature at which OTP is triggered may vary depending on application, PCB layout and material used.

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December 2016

AL5809

Document number: DS36625 Rev. 5 - 2

AL5809

Application Information

Description

The AL5809 is a constant current Linear LED driver and can be placed in series with LEDs as a High Side or a Low Side constant current

regulator. The AL5809 offers various current settings from 15mA up to 150mA and different current settings available upon request (contact

Diodes local sales office at http://www.diodes.com).

The AL5809 contains a Low-Dropout regulator which provides power to the internal Current regulation control block. A fixed preset LED current

setting resistor sets the reference current of the Current regulation block. The LED current setting resistor varies with each variant of the AL5809.

An accurate current mirror within the Current regulation control block increases the reference current to the preset LED current of the AL5809.

Simple LED String

The AL5809 can be placed in series with LEDs as a Low Side/High Side constant current regulator. The number of the LEDs can vary from one

to as many as can be supported by the input supply voltage. The designer needs to calculate the maximum voltage between In and Out by

taking the maximum input voltage minus the voltage across the LED string (Figures 1 & 2).

VIN

1

IN

Low Side LED String

AL5809

1

IN

OUT

2

AL5809

High Side LED String

OUT

2

Figure 2 High Side LED String Tapping

Figure 1 Low Side LED String Tapping

The AL5809 can also be used on the high side of the LEDs, see Figure 2. The minimum system input voltage can be calculated by:

V_IN(min)= V_{LED_CHAIN}+ 2.5V Where V_{LED_CHAIN}is the LED chain voltage.

The LED current can be increased by connecting two or more AL5809 in parallel in Figure 3.

VIN

1

IN

1

IN

. . .

AL5809

1

IN

1

IN

OUT

2

OUT

2

. . .

AL5809

OUT

2

OUT

2

(a)Low Side Configuration

(b) High Side Configuration

Figure 3 Higher LED Current by Parallel Configuration of AL5809

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December 2016

AL5809

Document number: DS36625 Rev. 5 - 2

AL5809

Application Information (continued)

PWM Dimming

The AL5809 can be used to provide LED current dimming driving the Out pin via the MOSFET switch to ground (Figure 4a) applying a PWM

signal with a frequency range between 100Hz and 200Hz. The Out pin current is then effectively switched on and off to modulate the output LED

current. The dimming effect can be achieved by varying the PWM signal duty cycle.

VIN

ON/OFF

Switch

1

IN

1

IN

AL5809

OUT

2

OUT

2

PWM_DIM

(ZXMN6A11Z)

a) PWM Dimming by External MOSFET

b) PWM Dimming by Power Supply VIN ON/OFF

Figure 4 PWM Dimming

Recommended PWM Frequency and Dimming Range

Duty Cycle (%)

PWM Frequency (Hz)

Min

5

10

Max

95

90

100

200

Test conditions (Figure 4a): PWM frequency 100Hz–200Hz Square wave, 0-4V gate voltage, VIN = 6V, 1 LED, AL5809-30mA

Use the following formula to calculate the Min and Max duty cycle:

Min. Duty cycle (%) = (t_{ON_MIN}) / (time period of the PWM signal)

Max. Duty cycle (%) = 100% - ((t_{OFF_MIN}) / (time period of the PWM signal))

Notes: t_{ON_MIN}= 0.5mS (Min. value), and t_{OFF_MIN}= 0.5mS (Min. value) are listed in the Electrical Characteristics table on page 4.

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December 2016

AL5809

Document number: DS36625 Rev. 5 - 2

AL5809

Application Information (continued)

Dimming Curves

Figure 5 PWM Dimming 30mA vs. Duty Cycle

Figure 6 Area Zoom In within Duty Cycle 30% of Figure 5

Recommended Minimum On/Off Pulse Width

Figure 7 Minimum On Pulse Width (t_{ON_MIN}

)

Figure 8 Minimum Off Pulse Width (t_{OFF_MIN})

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December 2016

AL5809

Document number: DS36625 Rev. 5 - 2

AL5809

Application Information (cont.)

Power Dissipation

The maximum ambient temperature range of the AL5809 is determined by its power dissipation and thermal impedance of the PCB onto which it

is mounted. Its junction temperature must be kept equal to or less than +125°C.

The power dissipated is determined by the LED current version that has been selected (15, 20, 25 30, 40, 50, 60, 90, 100, 120 or 150mA) and

the difference between the input voltage and LED chain voltage.

V_INOUT* I_LED

In a typical 12V system, the input voltage can vary between 11.4V and 12.6V. The recommended minimum V_INOUTvoltage of 2.5V enables the

AL5809 to drive 2 LED in series from the 12V rail (assuming V_LED<3.25V).

The AL5809’s power dissipation under minimum input voltage conditions will be:

So for the 20mA AL5809-20PI under these conditions this equals:

V_INOUT* I_LED= (11.4-6.5) * I_LED

4.9V * 20mA = 98mW

Under maximum input conditions (12.6V) the AL5809’s power dissipation will be:

So for the 20mA AL5809-20QPI this equals:

V_INOUT* I_LED= (12.6-6.5) * I_LED

6.1V * 20mA = 122mW

So there is a large difference in power dissipation of the Linear LED driver between minimum and maximum battery voltages. And care must be

taken to calculate expected power dissipations and then determine the suitable PCB material and layout. See Figures 9, 10 and 11 for graphs

showing power dissipation and maximum V_INOUT, for different currents and PCB material. Maximizing the area and mass of the ground plane and

additional vias between the pad of the OUT pin will improve the thermal impedance (_JA) of the AL5809.

Maximum V_InOut[V] vs. Ambient Temperature [⁰C] for PDI on FR4

Power Dissipation [W] vs. Ambient Temperature [⁰C]

Current Options (referred by Apps board FR4, 2-layer, 0.69"x0.76")

for PDI-123,SOD-123 on FR4, and PDI-123 on Getek

1.50

60

PDI on Getek (max Tj=145)

PDIon FR4 15mA

PDIon FR4 20mA

1.25

PDIon FR4 25mA

PDIon FR4 50mA

PDIon FR4 90mA

PDIon FR4 150mA

PDIon FR4 40mA

PDIon FR4 60mA

50

40

30

20

10

0

1.00

0.75

0.50

0.25

0.00

PDI on FR4 (max Tj=145)

SOD on FR4 (max Tj=145)

0

25

50

75

100

125

150

0

25

50

75

100

125

Ambient Temperature (°C)

AmbientTemperature [°C]

Figure 9 Power Dissipation vs. Ambient Temperature

@T_J= +145°C

Figure 10 Maximum V_InOutvs. Temperature

Maximum V_InOut[V] vs. Ambient Temperature [⁰C] for Current Option on PDI

FR4 Board (referred by Apps board FR4, 2-layer, 0.69"x0.76" size)

40

35

30

25

20

15

10

5

SOD on FR4 15mA

SOD on FR4 20mA

SOD on FR4 30mA

SOD on FR4 40mA

SOD on FR4 50mA

0

25

50

75

100

125

Ambient Temperature [°C]

Figure 11 Maximum V_InOutvs. Temperature

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December 2016

AL5809

Document number: DS36625 Rev. 5 - 2

AL5809

Application Information (cont.)

Figure 13 Power Dissipation vs. Junction Temperature

Figure 12 Power Dissipation vs. Ambient Temperature

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December 2016

AL5809

Document number: DS36625 Rev. 5 - 2

AL5809

Typical Performance Characteristics (15mA, 20mA, 25mA, 30mA, 40mA, 50mA PowerDI options)

15mA

20mA

25mA

30mA

40mA

50mA

15mA

30mA

20mA

40mA

25mA

50mA

60

50

40

30

20

10

0

60

50

40

30

20

10

0

TA = 25°C

T_A=25

0

5

10

15

VInOut [V]

20

25

30

0

0.5

1

1.5

2

2.5

3

VInOut [V]

Figure 14 LED Current vs. VInOut

Figure 15 Startup Minimum Operating Voltage

15mA

20mA

25mA

30mA

40mA

50mA

15mA_25C

15mA_125C

15mA_-40C

60

50

40

30

20

10

0

10

8

6

4

2

0

-2

-4

-6

-8

-10

-40 -25 -10

5

20

35

50

65

80

95 110 125

0

5

10

15

20

25

30

35

40

45

50

55

60

Temperature [⁰C]

VInOut [V]

Figure 16 LED Current vs. Ambient Temperature

Figure 17 LED Current Accuracy (%) vs. VInOut across

Temperature

T_Shut Down

T_Recovery

T_Shut Down

45

40

35

30

25

20

15

10

25

20

15

10

5

VInOut=

3.5V,

40mA

VInOut=3.5V

20mA

LED Current [mA]

LED

C

urrent [mA]

5

0

-5

100 105 110 115 120 125 130 135 140 145 150 155 160

Ambient Temperature [⁰C]

Figure 19 THSD of 40mA Current Option

Figure 18 THSD of 20mA Current Option

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December 2016

AL5809

Document number: DS36625 Rev. 5 - 2

AL5809

Typical Performance Characteristics (continued) (60mA, 90mA, 150mA PowerDI options)

60mA

90mA

150mA

60mA

90mA

150mA

160

140

120

100

80

160

140

120

100

80

60

40

LED

C

urrent [mA]

T_A=25⁰C

20

0

0.5

1

1.5

VInOut [V]

2

2.5

3

0

5

10

15

20

25

30

VInOut[V]

Figure 21 Startup Minimum Operating Voltage

Figure 20 LED Current vs. VInOut

VInOut=3.5

Temperature[⁰C]

Figure 22 LED Current across Temperature

Figure 23 LED Current Accuracy (%) vs. VInOut across

Temperature

T_Recovery

T_Shut Down

T_Recovery

160

140

120

100

80

70

60

50

40

30

20

10

VInOut=3.5V

60mA

VInOut=3.5V

150mA

60

40

20

LED Current [mA]

0

-20

-10

100

110

120

130

140

150

160

100

110

120

130

140

150

160

Temperature [⁰C]

Ambient Tempature [⁰C]

Figure 25 THSD of 150mA Current Option

Figure 24 THSD of 60mA Current Option

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December 2016

AL5809

Document number: DS36625 Rev. 5 - 2

AL5809

Ordering Information

7” Tape and Reel

Quantity Part Number Suffix

LED Current

Opion

Package

Code

Part Number

Packaging

AL5809-15P1-7

AL5809-15S1-7

AL5809-20P1-7

AL5809-20S1-7

AL5809-25P1-7

AL5809-25S1-7

AL5809-30P1-7

AL5809-30S1-7

AL5809-40P1-7

AL5809-40S1-7

AL5809-50P1-7

AL5809-50S1-7

AL5809-60P1-7

AL5809-90P1-7

AL5809-100P1-7

AL5809-120P1-7

AL5809-150P1-7

P1

S1

P1

S1

P1

S1

P1

S1

P1

S1

P1

S1

P1

PowerDI123

SOD-123

3,000/ Tape & Reel

-7

15mA

20mA

25mA

30mA

40mA

50mA

PowerDI123

SOD-123

PowerDI123

SOD-123

PowerDI123

SOD-123

PowerDI123

SOD-123

PowerDI123

SOD-123

-7

60mA

90mA

PowerDI123

-7

100mA

120mA

150mA

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December 2016

AL5809

Document number: DS36625 Rev. 5 - 2

AL5809

Marking Information

Part Number

AL5809-15P1-7

AL5809-20P1-7

AL5809-25P1-7

AL5809-30P1-7

AL5809-40P1-7

AL5809-50P1-7

AL5809-60P1-7

AL5809-90P1-7

AL5809-100P1-7

AL5809-120P1-7

AL5809-150P1-7

AL5809-15S1-7

AL5809-20S1-7

AL5809-25S1-7

AL5809-30S1-7

AL5809-40S1-7

AL5809-50S1-7

Package

PowerDI123

SOD-123

Identification Code

C1

C2

CA

C3

C4

C5

C6

C7

CB

C8

C9

D1

D2

DA

D3

D4

D5

SOD-123

Package Outline Dimensions

Please see http://www.diodes.com/package-outlines.html for the latest version.

PowerDI123 (Type B)

PowerDI123

Type B

C

E

Dim Min Max Typ

A

B

C

D

E

H

L

3.50 3.90 3.70

2.60 3.00 2.80

1.63 1.93 1.78

0.93 1.00 0.98

0.85 1.25 1.00

0.15 0.25 0.20

0.50 0.80 0.65

B

H

D

L

All Dimensions in mm

E

A

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December 2016

AL5809

Document number: DS36625 Rev. 5 - 2

AL5809

Package Outline Dimensions (continued)

Please see http://www.diodes.com/package-outlines.html for the latest version.

SOD123

0

l R0.10

Al

SOD123

Dim Min Max Typ

A

A1

b

1.00 1.35 1.05

0.00 0.10 0.05

0.52 0.62 0.57

0.10 0.15 0.11

1.40 1.70 1.55

2.55 2.85 2.65

3.55 3.85 3.65

0.25 0.40 0.30

c

A1

L

c

D

He

E

He

L

a

0º

8º

--

All Dimensions in mm

b

D

Suggested Pad Layout

Please see http://www.diodes.com/package-outlines.html for the latest version.

PowerDI123 (Type B)

X

Value

Dimensions

(in mm)

Y

G

X

X1

Y

2.000

1.050

4.100

1.500

G

X1

SOD123

X1

Dimensions Value (in mm)

X

X1

Y

0.900

4.050

0.950

Y

X

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December 2016

AL5809

Document number: DS36625 Rev. 5 - 2

AL5809

Taping Orientation

The taping orientation of the other package type can be found on our website at http://www.diodes.com/datasheets/ap02007.pdf.

PowerDI123 (Type B)

SOD123

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December 2016

AL5809

Document number: DS36625 Rev. 5 - 2

AL5809

IMPORTANT NOTICE

DIODES INCORPORATED MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARDS TO THIS DOCUMENT,

INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE

(AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION).

Diodes Incorporated and its subsidiaries reserve the right to make modifications, enhancements, improvements, corrections or other changes

without further notice to this document and any product described herein. Diodes Incorporated does not assume any liability arising out of the

application or use of this document or any product described herein; neither does Diodes Incorporated convey any license under its patent or

trademark rights, nor the rights of others. Any Customer or user of this document or products described herein in such applications shall assume

all risks of such use and will agree to hold Diodes Incorporated and all the companies whose products are represented on Diodes Incorporated

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This document is written in English but may be translated into multiple languages for reference. Only the English version of this document is the

final and determinative format released by Diodes Incorporated.

LIFE SUPPORT

Diodes Incorporated products are specifically not authorized for use as critical components in life support devices or systems without the express

written approval of the Chief Executive Officer of Diodes Incorporated. As used herein:

A. Life support devices or systems are devices or systems which:

1. are intended to implant into the body, or

2. support or sustain life and whose failure to perform when properly used in accordance with instructions for use provided in the

labeling can be reasonably expected to result in significant injury to the user.

B. A critical component is any component in a life support device or system whose failure to perform can be reasonably expected to cause the

failure of the life support device or to affect its safety or effectiveness.

Customers represent that they have all necessary expertise in the safety and regulatory ramifications of their life support devices or systems, and

acknowledge and agree that they are solely responsible for all legal, regulatory and safety-related requirements concerning their products and any

use of Diodes Incorporated products in such safety-critical, life support devices or systems, notwithstanding any devices- or systems-related

information or support that may be provided by Diodes Incorporated. Further, Customers must fully indemnify Diodes Incorporated and its

representatives against any damages arising out of the use of Diodes Incorporated products in such safety-critical, life support devices or systems.

www.diodes.com

16 of 16

www.diodes.com

December 2016

AL5809

Document number: DS36625 Rev. 5 - 2


型号：	AL5809-120P1-7
厂家：	DIODES INCORPORATED
描述：	LED Driver, 驱动光电二极管接口集成电路
文件：	总16页 (文件大小：1048K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

AL5809-120P1-7 [DIODES]

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