ACSC56-41SYKWA-F01 - Kingbright

DESCRIPTIONS

The Super Bright Yellow device is made with

AlGaInP (on GaAs substrate) light emitting diode chip

Electrostatic discharge and power surge could

damage the LEDs

It is recommended to use a wrist band or

anti-electrostatic glove when handling the LEDs

All devices, equipments and machineries must be

electrically grounded

FEATURES

 0.56 inch digit height

 Low current operation

Excellent character appearance

 Mechanically rugged

Gray face, white segment

 Package: 400 pcs / reel

 Moisture sensitivity level: 2a

RoHS compliant

APPLICATIONS

Home and smart appliances

 Display time and digital combination

 Industrial and instrumental applications

Numeric status

ATTENTION

Observe precautions for handling

electrostatic discharge sensitive devices

PACKAGE DIMENSIONS

SELECTION GUIDE

ACSC56-41SYKWA-F01

Surface Mount Display

RECOMMENDED SOLDERING PATTERN

(units: mm; tolerance: ± 0.15)

Notes:

1. All dimensions are in millimeters (inches), Tolerance is ±0.25(0.01") unless otherwise noted.

2. The specifications, characteristics and technical data described in the datasheet are subject to

change without prior notice.

3. The gap between the reflector and PCB shall not exceed 0.25mm.

Notes:

1. Luminous intensity / luminous Flux: +/-15%.

* Luminous intensity value is traceable to CIE127-2007 standards.

Part Number Emitting Color

(Material) Lens Type Iv (ucd) @ 10mA [1]

Min. Typ.

ACSC56-41SYKWA-F01 ■ Super Bright Yellow

(AlGaInP)

White Diffused

31000 76000

Common Cathode,

Rt. Hand Decimal

*14000 *29000

Description

ABSOLUTE MAXIMUM RATINGS at TA=25°C

ELECTRICAL / OPTICAL CHARACTERISTICS at TA=25°C

ACSC56-41SYKWA-F01

Parameter Symbol Emitting Color Value Unit

Typ. Max.

Wavelength at Peak Emission IF = 10mA λpeak Super Bright Yellow 590 - nm

Dominant Wavelength IF = 10mA λdom [1] Super Bright Yellow 590 - nm

Spectral Bandwidth at 50% Φ REL MAX

IF = 10mA Δλ Super Bright Yellow 20 - nm

Capacitance C Super Bright Yellow 20 - pF

Forward Voltage IF = 10mA VF [2] Super Bright Yellow 1.95 2.35 V

Reverse Current (VR = 5V) IR Super Bright Yellow - 10 uA

Parameter Symbol Unit

Power Dissipation PD 75 mW

Reverse Voltage VR 5 V

Junction Temperature Tj 115 °C

Operating Temperature Top -40 to +85 °C

Storage Temperature Tstg -40 to +85 °C

DC Forward Current IF 30 mA

Peak Forward Current IFM [1] 175 mA

Electrostatic Discharge Threshold (HBM) - 3000 V

Value

Notes:

1. The dominant wavelength (λd) above is the setup value of the sorting machine. (Tolerance λd : ±1nm. )

2. Forward voltage: ±0.1V.

3. Wavelength value is traceable to CIE127-2007 standards.

4. Excess driving current and / or operating temperature higher than recommended conditions may result in severe light degradation or premature failure.

Notes:

1. 1/10 Duty Cycle, 0.1ms Pulse Width.

2. Relative humidity levels maintained between 40% and 60% in production area are recommended to avoid the build-up of static electricity – Ref JEDEC/JESD625-A and JEDEC/J-STD-033.

0%

20%

40%

60%

80%

100%

350 400 450 500 550 600 650 700 750 800

T

a

= 25 °C

Yellow

Wavelength (nm)

Relative Intensity (a. u.)

0

4

8

12

16

20

1.7 1.8 1.9 2.0 2.1 2.2

Ta = 25 °C

Forward voltage (V)

Forward current (mA)

0.0

0.5

1.0

1.5

2.0

2.5

048121620

Ta = 25 °C

Forward current (mA)

Luminous intensity normalised at

10 mA

0

10

20

30

40

50

-40-20 0 20406080100

Ambient temperature (°C)

Permissible forward current (mA)

0.0

0.5

1.0

1.5

2.0

2.5

-40-200 20406080100

Ambient temperature (°C)

Luminous intensity normalised at

Ta = 25 °C

TECHNICAL DATA

RELATIVE INTENSITY vs. WAVELENGTH

SUPER BRIGHT YELLOW

TAPE SPECIFICATIONS (units: mm)

REEL DIMENSION (units: mm)

REFLOW SOLDERING PROFILE for LEAD-FREE SMD PROCESS

ACSC56-41SYKWA-F01

Forward Current vs.

Forward Voltage

Luminous Intensity vs.

Forward Current

Forward Current Derating Curve Luminous Intensity vs.

Ambient Temperature

Notes:

1. Don't cause stress to the LEDs while it is exposed to high temperature.

2. The maximum number of reflow soldering passes is 2 times.

3. Reflow soldering is recommended. Other soldering methods are not recommended as they might

cause damage to the product.

PACKING & LABEL SPECIFICATIONS

PRECAUTIONARY NOTES

1. The information included in this document reflects representative usage scenarios and is intended for technical reference only.

2. The part number, type, and specifications mentioned in this document are subject to future change and improvement without notice. Before production usage customer should refer to

the latest datasheet for the updated specifications.

3. When using the products referenced in this document, please make sure the product is being operated within the environmental and electrical limits specified in the datasheet. If

customer usage exceeds the specified limits, Kingbright will not be responsible for any subsequent issues.

4. The information in this document applies to typical usage in consumer electronics applications. If customer's application has special reliability requirements or have life-threatening

liabilities, such as automotive or medical usage, please consult with Kingbright representative for further assistance.

5. The contents and information of this document may not be reproduced or re-transmitted without permission by Kingbright.

6. All design applications should refer to Kingbright application notes available at http://www.KingbrightUSA.com/ApplicationNotes

ACSC56-41SYKWA-F01

CIRCUIT DESIGN NOTES

1. Protective current-limiting resistors may be necessary to operate the LEDs within the specified range.

2. LEDs mounted in parallel should each be placed in series with its own current-limiting resistor.

3. The driving circuit should be designed to protect the LED against reverse

voltages and transient voltage spikes when the circuit is powered up

or shut down.

4. The safe operating current should be chosen after considering the

maximum ambient temperature of the operating environment.

5. Prolonged reverse bias should be avoided, as it could cause metal

migration, leading to an increase in leakage current or causing

a short circuit.

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ACSC56-41SYKWA-F01