XL-B324SURUGW Bi-color Common-anode LED

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

XL-B324SURUGW Bi-color Common-anode LED

RFQ Available Sourcing Support Alternative Matching RoHS
Part Number
XL-B324SURUGW
Manufacturer
XINGLIGHT
Package
F3 through-hole, 3.8 x 3.0 x 5.2 x 28 mm
Category
LED
Product Type
SMD LED

Quick Sourcing Note

XL-B324SURUGW from XINGLIGHT is an LED component configured as a red and emerald green bi-color common-anode LED. It uses an F3 through-hole package measuring 3.8 x 3.0 x 5.2 mm with 28 mm leads and a transparent/aerosol colloid package. At IF=20 mA and Ta=25°C, red luminous intensity is 400-700 mcd and green luminous intensity is 2100-4000 mcd. Dominant wavelength is 630-640 nm for red and 520-530 nm for green, with a typical 30° viewing angle. It is suited to panel indicators, status displays, signal indication, polarity or state indication, and through-hole assemblies requiring RoHS-compliant bi-color output.

Specifications

TypeDescription
Part NumberXL-B324SURUGW
ManufacturerXINGLIGHT
Product TypeSMD LED
CategoryLED
LED ConfigurationCommon anode; red and emerald green bi-color LED
Luminous ColorHigh brightness red and green; transparent/aerosol colloid package
Package DimensionF3 / 3.8 x 3.0 x 5.2 x 28 mm; L/W/H and lead length stated
Moisture Sensitivity LevelMSL 2-3
ComplianceRoHS compliant
Maximum Power Dissipation, Red50 mW at Ta=25°C
Maximum Power Dissipation, Green70 mW at Ta=25°C
Maximum Continuous Forward Current, Red20 mA at Ta=25°C
Maximum Continuous Forward Current, Green20 mA at Ta=25°C
Peak Forward Current, Red80 mA at Ta=25°C
Peak Forward Current, Green80 mA at Ta=25°C
Operating Temperature Range-20 to +85 °C
Storage Temperature Range-40 to +85 °C
Wave Soldering Temperature240 °C max, <=6 s
Manual Soldering Temperature300 °C max, 3 s
Solder Joint Distance>=3.5 mm from colloid bottom
Luminous Intensity, Red400-700 mcd at IF=20 mA, Ta=25°C
Luminous Intensity, Green2100-4000 mcd at IF=20 mA, Ta=25°C
Dominant Wavelength, Red630-640 nm at IF=20 mA, Ta=25°C
Dominant Wavelength, Green520-530 nm at IF=20 mA, Ta=25°C
Peak Wavelength, Red640 nm typ at IF=20 mA, Ta=25°C
Peak Wavelength, Green525 nm typ at IF=20 mA, Ta=25°C
Forward Voltage, Red1.8-2.4 V at IF=20 mA, Ta=25°C
Forward Voltage, Green2.8-3.4 V at IF=20 mA, Ta=25°C
Viewing Angle30 deg typ for red and green at IF=20 mA, Ta=25°C
Reverse Current, Red<=10 uA at VR=5 V, Ta=25°C
Reverse Current, Green<=10 uA at VR=5 V, Ta=25°C
Brightness Bin A5400-500 mcd at IF=20 mA
Brightness Bin A6500-700 mcd at IF=20 mA
Brightness Bin B32100-2500 mcd at IF=20 mA
Brightness Bin B42500-3000 mcd at IF=20 mA
Brightness Bin B53000-3500 mcd at IF=20 mA
Brightness Bin B63500-4000 mcd at IF=20 mA
Voltage Bin N12-71.8-2.0 V at IF=20 mA
Voltage Bin N12-82.0-2.2 V at IF=20 mA
Voltage Bin N12-92.2-2.4 V at IF=20 mA
Voltage Bin N13-32.8-3.0 V at IF=20 mA
Voltage Bin N13-43.0-3.2 V at IF=20 mA
Voltage Bin N13-53.2-3.4 V at IF=20 mA
Wavelength Bin HG03520-525 nm at IF=20 mA
Wavelength Bin HG04525-530 nm at IF=20 mA
Wavelength Bin HR04630-635 nm at IF=20 mA
Wavelength Bin HR05635-640 nm at IF=20 mA
Dimension Tolerance±0.50 mm unless otherwise specified
PackagingIn bags
Packaging ProtectionMoisture-proof and anti-electrostatic foil bag
Storage Temperature Recommendation<=30 °C
Storage Humidity Recommendation<=70% RH
Recommended Original Package Storage Duration<=3 months
Ethanol Cleaning Time<=3 minutes at room temperature
Lead Bend Distance>=2 mm from colloid before welding
Recommended Preheat Temperature100 °C max for wave soldering
Recommended Preheat Time60 s max for wave soldering
Recommended Wave Soldering Temperature240 °C max
Recommended Wave Soldering Time6 s max
Recommended Iron Soldering Temperature300 °C max
Recommended Iron Soldering Time3 s max
ESD Human Body Model Limit<1000 V; antistatic protection recommended during use
ESD Machine Model Limit<100 V; antistatic protection recommended during use
Datasheet Statusrequest_only

Product Overview

XL-B324SURUGW is a XINGLIGHT LED in a red and emerald green bi-color common-anode configuration. The device is supplied in an F3 through-hole package with stated dimensions of 3.8 x 3.0 x 5.2 x 28 mm, including lead length, and uses a transparent/aerosol colloid package for high brightness red and green emission.

At IF=20 mA and Ta=25°C, the red channel provides 400-700 mcd luminous intensity, 630-640 nm dominant wavelength, 640 nm typical peak wavelength, and 1.8-2.4 V forward voltage. The green channel provides 2100-4000 mcd luminous intensity, 520-530 nm dominant wavelength, 525 nm typical peak wavelength, and 2.8-3.4 V forward voltage. Both colors have a typical viewing angle of 30° and reverse current of no more than 10 uA at VR=5 V.

Assembly limits include wave soldering at 240°C maximum for 6 seconds and manual soldering at 300°C maximum for 3 seconds, with solder joints at least 3.5 mm from the colloid bottom. The device is packaged in moisture-proof anti-electrostatic foil bags and is specified as RoHS compliant with MSL 2-3 handling.

Key Features

  • Common-anode red and emerald green LED configuration
  • F3 through-hole package with 28 mm leads
  • High brightness red output rated 400-700 mcd
  • Green output rated 2100-4000 mcd at 20 mA
  • Red dominant wavelength range of 630-640 nm
  • Green dominant wavelength range of 520-530 nm
  • Typical 30 degree viewing angle for both colors
  • RoHS compliant with MSL 2-3 handling rating
  • Wave soldering supported to 240°C for 6 seconds
  • Moisture-proof anti-electrostatic foil bag packaging

Typical Applications

  • Panel status indicators
  • Bi-color equipment indicators
  • Through-hole signal displays
  • Red and green state indication
  • Control panel annunciators
  • PCB-mounted visual indicators
  • ESD-controlled assembly workflows

Procurement Notes

When requesting a quote for XL-B324SURUGW, 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

TOGIALED

TJ-L3FYTXHMCYLC2R2G-A5

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

Application Verification Recommended

FAQ

What LED configuration does XL-B324SURUGW use?

XL-B324SURUGW is specified as a red and emerald green bi-color LED with a common-anode configuration. The package provides high brightness red and green luminous output in an F3 through-hole format.

What are the forward voltage ratings for each color?

At IF=20 mA and Ta=25°C, the red channel forward voltage is specified as 1.8-2.4 V. Under the same test conditions, the green channel forward voltage is specified as 2.8-3.4 V.

What soldering limits apply to this LED?

The datasheet specifies wave soldering at 240°C maximum for no more than 6 seconds and manual iron soldering at 300°C maximum for 3 seconds. Solder joints should be at least 3.5 mm from the colloid bottom.

How should XL-B324SURUGW be stored before assembly?

The storage recommendation is no more than 30°C and no more than 70% RH. The original package storage duration is recommended at no more than 3 months, with packaging in moisture-proof anti-electrostatic foil bags.

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.

Request Quote Request Datasheet