XL-502SYGC Green Through-Hole LED

XINGLIGHT LED — specifications, applications, sourcing support and RFQ.

XL-502SYGC Green Through-Hole LED

RFQ Available Sourcing Support Alternative Matching RoHS
Part Number
XL-502SYGC
Manufacturer
XINGLIGHT
Package
F5 through-hole LED, 5.5 x 5.0 x 8.7 x 18 mm
Category
LED
Product Type
SMD LED

Quick Sourcing Note

XL-502SYGC from XINGLIGHT is a green through-hole LED in an F5 package measuring 5.5 x 5.0 x 8.7 x 18 mm. It uses a white / water colloid body and is specified for 20 mA maximum continuous forward current at Ta=25°C, 70 mW power dissipation, and 80 mA peak forward current. Optical parameters at IF=20mA and Ta=25°C include 300 to 700 mcd luminous intensity, 565 to 575 nm dominant wavelength, 570 nm typical peak wavelength, and 30° typical viewing angle. It is suited to green indication, panel lamps, status displays, and through-hole PCB assemblies.

Specifications

TypeDescription
Part NumberXL-502SYGC
ManufacturerXINGLIGHT
Product TypeSMD LED
CategoryLED
Package / CaseF5 through-hole LED, 5.5 x 5.0 x 8.7 x 18 mm
Appearance DimensionF5 / 5.5 x 5.0 x 8.7 x 18 mm
Luminous ColorGreen brightness
Colloid ColorWhite / water colloid
RoHS ComplianceMeets RoHS requirements; environmental protection product
Moisture Sensitivity LevelMSL 2
Power Dissipation70 mW at Ta=25°C
Maximum Continuous Forward Current20 mA at Ta=25°C
Peak Forward Current80 mA at Ta=25°C
Operating Ambient Temperature-20°C to +85°C
Storage Ambient Temperature-40°C to +85°C
Wave Soldering Temperature240°C maximum, ≤6 s; soldering point more than 2.0 mm from colloid bottom
Manual Welding Temperature300°C, 3 s; soldering point more than 2.0 mm from colloid bottom
Luminous Intensity300 min, 500 typ, 700 max mcd at IF=20mA, Ta=25°C
Dominant Wavelength565 min, 575 max nm at IF=20mA, Ta=25°C
Peak Wavelength570 typ nm at IF=20mA, Ta=25°C
Forward Voltage2.0 min, 2.2 typ, 2.6 max V at IF=20mA, Ta=25°C
Viewing Angle30 typ deg at IF=20mA, Ta=25°C, 2θ1/2
Spectral Width at Half Height30 typ nm at IF=20mA, Ta=25°C
Reverse Current≤10 µA at VR=5V, Ta=25°C
Light Intensity Tolerance±10%
Voltage Tolerance±0.1 V
Chromaticity Coordinate Tolerance±0.01 for X,Y coordinates
Wavelength Tolerance±1 nm
Brightness Grade A4300 to 400 mcd at IF=20mA
Brightness Grade A5400 to 500 mcd at IF=20mA
Brightness Grade A6500 to 700 mcd at IF=20mA
Voltage Grade N12-82.0 to 2.2 V at IF=20mA
Voltage Grade N12-92.2 to 2.4 V at IF=20mA
Voltage Grade N13-12.4 to 2.6 V at IF=20mA
Wavelength Grade HYG03565 to 567.5 nm at IF=20mA
Wavelength Grade HYG04567.5 to 570 nm at IF=20mA
Wavelength Grade HYG05570 to 572.5 nm at IF=20mA
Wavelength Grade HYG06572.5 to 575 nm at IF=20mA
Typical Curves Test Temperature25±5°C unless otherwise indicated
Working Life Test1000 hrs, 22 pcs, fail qty 0/1 at Ta=25±5°C, IF=20mA
High Temperature High Humidity Test1000 hrs, 22 pcs, fail qty 0/1 at Ta=85±5°C, RH=85-90%
High Temperature Storage Test1000 hrs, 22 pcs, fail qty 0/1 at Ta=85±5°C
Low Temperature Storage Test1000 hrs, 22 pcs, fail qty 0/1 at Ta=-40±5°C
Cold and Hot Cycle Test100 cycles, 22 pcs, fail qty 0/1; 100±5°C for 30 min, 5 min transition, -40±5°C for 30 min
Hot and Cold Impact Test100 cycles, 22 pcs, fail qty 0/1; 105±5°C to -45±5°C, 5 min each
Resistance to Soldering Heat2 times, 22 pcs, fail qty 0/1; solder temperature Tsol=250±5°C
Lead Integrity Test3 times, 22 pcs, fail qty 0/1; load 2.5 N / 0.25 kgf, 0° to 90° to 0°
Outline Dimension Tolerance±0.50 mm unless otherwise specified
PackagingIn bags
Packaging ProtectionMoisture-proof and anti-electrostatic foil bag
Storage RecommendationTemperature ≤30°C, relative humidity ≤70%, use original box within 3 months; for longer storage use drying box with desiccant or nitrogen
Cleaning LimitEthanol wiping or soaking ≤3 minutes at room temperature
Lead Bend DistanceAt least 2 mm from colloid for bracket/lead forming
Soldering LocationBelow 2 mm from colloid bottom; avoid soaking LED colloid
ESD Human Body ModelHBM <1000 V; use antistatic devices
ESD Machine Model<100 V; use antistatic devices
Datasheet Statusrequest_only

Product Overview

The XL-502SYGC is a XINGLIGHT green through-hole LED supplied in an F5 body with stated appearance dimensions of 5.5 x 5.0 x 8.7 x 18 mm. The device is described with green brightness and a white / water colloid structure, making it applicable where a discrete green visual indicator is required in a through-hole assembly.

At Ta=25°C, the LED is rated for 70 mW power dissipation, 20 mA maximum continuous forward current, and 80 mA peak forward current. Electrical and optical specifications at IF=20mA and Ta=25°C include 2.0 to 2.6 V forward voltage, 300 to 700 mcd luminous intensity, 565 to 575 nm dominant wavelength, 570 nm typical peak wavelength, 30 nm typical spectral width at half height, and 30° typical viewing angle.

Assembly limits include wave soldering up to 240°C for no more than 6 seconds and manual welding at 300°C for 3 seconds, with the soldering point more than 2.0 mm from the colloid bottom. Handling notes include MSL 2, moisture-proof and anti-electrostatic foil-bag packaging, ESD limits below 1000 V HBM and below 100 V machine model, and storage at temperature ≤30°C and relative humidity ≤70%.

Key Features

  • F5 through-hole package, 5.5 x 5.0 x 8.7 x 18 mm
  • Green brightness with white / water colloid body
  • 300 to 700 mcd luminous intensity at 20 mA
  • 565 to 575 nm dominant wavelength at 20 mA
  • 2.0 to 2.6 V forward voltage at 20 mA
  • 30° typical viewing angle at IF=20mA
  • 20 mA maximum continuous forward current at Ta=25°C
  • -20°C to +85°C operating ambient temperature
  • MSL 2 moisture sensitivity level
  • Moisture-proof anti-electrostatic foil-bag packaging

Typical Applications

  • Green panel indicators
  • Through-hole PCB status lamps
  • Equipment signal indicators
  • Control panel indication
  • Discrete visual status displays
  • Wave-soldered LED assemblies
  • Manual-welded LED assemblies

Procurement Notes

When requesting a quote for XL-502SYGC, buyers should confirm the manufacturer, package or case, required quantity, target date code, compliance documents, packing method, destination country and expected delivery schedule.

If alternatives are acceptable, buyers should share the approved vendor list, required electrical or optical limits, package constraints and qualification requirements. Any alternative part should be reviewed by the buyer's engineering team before production use.

For LED and optoelectronic sourcing, brightness bin, wavelength or color temperature bin, forward voltage range, viewing angle, moisture sensitivity level and soldering process limits may affect final selection, availability and lead time.

Alternatives

EVERLIGHT

333-2SYGC/S530-E2

Cross-reference candidate from XINGLIGHT replacement table; validate package, optical/electrical parameters, binning and sourcing requirements before substitution.

EVERLIGHT

TJ-L5FYTGHTCGSFLC7K-A5

Cross-reference candidate from XINGLIGHT replacement table; validate package, optical/electrical parameters, binning and sourcing requirements before substitution.

Application Verification Recommended

FAQ

What package is used for the XL-502SYGC LED?

The XL-502SYGC is specified as an F5 through-hole LED with appearance dimensions of 5.5 x 5.0 x 8.7 x 18 mm. The datasheet also lists an outline dimension tolerance of ±0.50 mm unless otherwise specified.

What are the main optical specifications at 20 mA?

At IF=20mA and Ta=25°C, the LED has 300 to 700 mcd luminous intensity, 565 to 575 nm dominant wavelength, 570 nm typical peak wavelength, 30 nm typical spectral width, and a 30° typical viewing angle.

What soldering limits apply to this through-hole LED?

Wave soldering is limited to 240°C maximum for ≤6 seconds, and manual welding is specified at 300°C for 3 seconds. In both cases, the soldering point must be more than 2.0 mm from the colloid bottom.

How should XL-502SYGC LEDs be stored and handled?

The datasheet recommends storage at temperature ≤30°C and relative humidity ≤70%, using the original box within 3 months. For longer storage, use a drying box with desiccant or nitrogen. ESD handling should use antistatic devices.

Technical Review & Sourcing Note

Prepared by LDeepAI Component Sourcing Team. Reviewed for RFQ, documentation and alternative sourcing use. Last updated: June 30, 2026.

This page is based on manufacturer datasheet information and LDeepAI sourcing review. Specifications should be verified against the official manufacturer datasheet before final procurement or design approval. Final electrical, optical and reliability approval should be confirmed by the buyer's engineering team.

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