Specifications
| Type | Description |
|---|---|
| Part Number | XL-A324SURSYGW |
| Manufacturer | XINGLIGHT |
| Product Type | Through-Hole LED |
| Category | LED |
| Package Case | F3 through-hole LED, 3.8 x 3.0 x 5.2 x 28 mm |
| LED Configuration | Common cathode bi-color; red and yellow-green LED |
| Luminous Color | High brightness red and yellow-green; misty/aerosol colloid lens |
| Package Dimensions | 3.8 x 3.0 x 5.2 x 28 mm; F3 package |
| Moisture Sensitivity Level | MSL 2 |
| RoHS Compliance | Meets RoHS requirements |
| Maximum Power Dissipation Red | 50 mW at Ta=25°C |
| Maximum Power Dissipation Yellow-Green | 50 mW at Ta=25°C |
| Maximum Continuous Forward Current Red | 20 mA at Ta=25°C |
| Maximum Continuous Forward Current Yellow-Green | 20 mA at Ta=25°C |
| Peak Forward Current Red | 80 mA at Ta=25°C |
| Peak Forward Current Yellow-Green | 80 mA at Ta=25°C |
| Operating Temperature Range | -20 to +85 °C; Ta=25°C absolute maximum ratings table |
| Storage Temperature Range | -40 to +85 °C; Ta=25°C absolute maximum ratings table |
| Wave Soldering Temperature | 240°C maximum, <=6 s; soldering point more than 2.0 mm from colloid bottom |
| Manual Welding Temperature | 300°C for 3 s; soldering point more than 2.0 mm from colloid bottom |
| Luminous Intensity Red | 400 mcd min, 700 mcd max at IF=20 mA, Ta=25°C |
| Luminous Intensity Yellow-Green | 50 mcd min, 200 mcd max at IF=20 mA, Ta=25°C |
| Dominant Wavelength Red | 630 nm min, 640 nm max at IF=20 mA, Ta=25°C |
| Dominant Wavelength Yellow-Green | 565 nm min, 575 nm max at IF=20 mA, Ta=25°C |
| Peak Wavelength Red | 640 nm typ at IF=20 mA, Ta=25°C |
| Peak Wavelength Yellow-Green | 570 nm typ at IF=20 mA, Ta=25°C |
| Forward Voltage Red | 1.8 V min, 2.4 V max at IF=20 mA, Ta=25°C |
| Forward Voltage Yellow-Green | 2.0 V min, 2.6 V max at IF=20 mA, Ta=25°C |
| Viewing Angle | 30 deg typ; 2θ1/2, red and yellow-green, IF=20 mA, Ta=25°C |
| Reverse Current Red | <=10 µA at VR=5 V, Ta=25°C |
| Reverse Current Yellow-Green | <=10 µA at VR=5 V, Ta=25°C |
| Luminous Intensity Tolerance | ±10%; manufacturer note |
| Forward Voltage Tolerance | ±0.1 V; manufacturer note |
| Wavelength Tolerance | ±1 nm; manufacturer note |
| Brightness Bin A1 | 50 to 100 mcd at IF=20 mA |
| Brightness Bin A2 | 100 to 200 mcd at IF=20 mA |
| Brightness Bin A5 | 400 to 500 mcd at IF=20 mA |
| Brightness Bin A6 | 700 to 900 mcd at IF=20 mA |
| Voltage Bin N12-7 | 1.8 to 2.0 V at IF=20 mA |
| Voltage Bin N12-8 | 2.0 to 2.2 V at IF=20 mA |
| Voltage Bin N12-9 | 2.2 to 2.4 V at IF=20 mA |
| Voltage Bin N13-1 | 2.4 to 2.6 V at IF=20 mA |
| Wavelength Bin HR04 | 630 to 635 nm at IF=20 mA |
| Wavelength Bin HR05 | 635 to 640 nm at IF=20 mA |
| Wavelength Bin HYG03 | 565 to 567.5 nm at IF=20 mA |
| Wavelength Bin HYG04 | 567.5 to 570 nm at IF=20 mA |
| Wavelength Bin HYG05 | 570 to 572.5 nm at IF=20 mA |
| Wavelength Bin HYG06 | 572.5 to 575 nm at IF=20 mA |
| Working Life Test | 1000 hrs, 22 pcs, fail qty 0/1; Ta=25°C ±5°C, IF=20 mA |
| High Temperature High Humidity Test | 1000 hrs, 22 pcs, fail qty 0/1; Ta=85°C ±5°C, RH=85 to 90% |
| High Temperature Storage Test | 1000 hrs, 22 pcs, fail qty 0/1; Ta=85°C ±5°C |
| Low Temperature Storage Test | 1000 hrs, 22 pcs, fail qty 0/1; Ta=-40°C ±5°C |
| Cold and Hot Cycle Test | 100 cycles, 22 pcs, fail qty 0/1; 100°C ±5°C for 30 min, transition 5 min, -40°C ±5°C for 30 min |
| Hot and Cold Impact Test | 100 cycles, 22 pcs, fail qty 0/1; 105°C ±5°C for 5 min, transition 5 min, -45°C ±5°C |
| Resistance to Soldering Heat Test | 2 times, 22 pcs, fail qty 0/1; solder temperature Tsol=250°C ±5°C |
| Lead Integrity Test | 3 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 |
| Packaging | In bags |
| Moisture and ESD Packaging | Moisture-proof and anti-electrostatic foil bag |
| Recommended Storage | Temperature <=30°C, relative humidity <=70%; original box for no more than 3 months, longer storage in drying box with desiccant or nitrogen |
| Cleaning Solvent | Ethanol allowed for <=3 minutes at room temperature |
| Lead Bending Clearance | 2 mm minimum from colloid; lead forming before soldering |
| Electrostatic Discharge Limit | HBM <1000 V, machine discharge mode <100 V; use antistatic protective devices |
| Datasheet Status | request_only |
Product Overview
XL-A324SURSYGW is a XINGLIGHT common cathode bi-color LED combining red and yellow-green emitters in one F3 through-hole package. The package dimensions are stated as 3.8 x 3.0 x 5.2 x 28 mm, with an outline dimension tolerance of ±0.50 mm unless otherwise specified.
Electrical and optical ratings are specified at IF=20 mA and Ta=25°C for the main parameters. The red channel has 400 to 700 mcd luminous intensity, 630 to 640 nm dominant wavelength, 640 nm typical peak wavelength, and 1.8 to 2.4 V forward voltage. The yellow-green channel has 50 to 200 mcd luminous intensity, 565 to 575 nm dominant wavelength, 570 nm typical peak wavelength, and 2.0 to 2.6 V forward voltage.
Assembly guidance includes wave soldering at 240°C maximum for no more than 6 seconds and manual welding at 300°C for 3 seconds, with soldering more than 2.0 mm from the colloid bottom. The through-hole bi-color format supports status indication, polarity-aware panel indication, and board-level visual signaling where red and yellow-green outputs are required.
Key Features
- Common cathode bi-color red and yellow-green LED
- F3 through-hole package with 3.8 x 3.0 x 5.2 mm body
- Red luminous intensity from 400 to 700 mcd
- Yellow-green luminous intensity from 50 to 200 mcd
- Red dominant wavelength range of 630 to 640 nm
- Yellow-green dominant wavelength range of 565 to 575 nm
- 20 mA continuous forward current per color
- 30 degree typical viewing angle at IF=20 mA
- MSL 2 moisture sensitivity classification
- RoHS requirements met per manufacturer statement
Typical Applications
- Red and yellow-green status indicators
- Through-hole panel indicators
- Board-level visual signaling
- Common cathode indication circuits
- Two-color equipment indicators
- Wave-soldered LED assemblies
Procurement Notes
When requesting a quote for XL-A324SURSYGW, 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-L3FYTXHMCSLC2R7K-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-A324SURSYGW use?
XL-A324SURSYGW is specified as a common cathode bi-color LED. The device combines red and yellow-green LED outputs in an F3 through-hole package with a misty/aerosol colloid lens.
What are the main optical ratings at 20 mA?
At IF=20 mA and Ta=25°C, the red channel is rated 400 to 700 mcd with 630 to 640 nm dominant wavelength. The yellow-green channel is rated 50 to 200 mcd with 565 to 575 nm dominant wavelength.
What soldering limits are specified for this LED?
Wave soldering is specified at 240°C maximum for no more than 6 seconds. 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-A324SURSYGW be stored and handled?
Recommended storage is temperature <=30°C and relative humidity <=70%. The original box is specified for no more than 3 months, with longer storage in a drying box using desiccant or nitrogen. ESD limits are HBM <1000 V and machine discharge mode <100 V.
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.
