Specifications
| Type | Description |
|---|---|
| Part Number | XL-HD2525SURC-A4 |
| Manufacturer | XINGLIGHT |
| Product Type | SMD LED |
| Category | LED |
| Package / Case | 2.5 mm x 2.5 mm x 1.85 mm SMD LED |
| Outline Dimensions | 2.5 x 2.5 x 1.85 mm; L/W/H |
| Luminous Color | Red; transparent colloid/package |
| Colloid / Lens | Transparent colloid; red LED |
| Moisture Sensitivity Level | MSL 3 |
| RoHS Compliance | Meets RoHS requirements |
| Power Dissipation | 3000 mW; Ta=25°C absolute maximum rating |
| Forward Current | 1000 mA; Ta=25°C absolute maximum rating; pulse width <=0.1 ms, duty <=1/10 note applies |
| Electrostatic Discharge | 3000 V; Ta=25°C absolute maximum rating |
| Operating Temperature Range | -40 to +105°C; Ta=25°C absolute maximum rating table |
| Storage Temperature Range | -40 to +85°C; Ta=25°C absolute maximum rating table |
| Lead Soldering Temperature | 260°C max for <=6 s; Ta=25°C absolute maximum rating table |
| Luminous Flux | 80-110 lm; IF=700 mA, Ta=25°C |
| Dominant Wavelength | 615-625 nm; IF=700 mA, Ta=25°C |
| Peak Wavelength | 625 nm typ; IF=700 mA, Ta=25°C |
| Forward Voltage | 1.8-2.4 V; IF=700 mA, Ta=25°C |
| Half Intensity Viewing Angle | 120 deg typ; 2θ1/2, IF=700 mA, Ta=25°C |
| Junction Temperature | 125°C max; Ta=25°C optical-electrical parameter table |
| Reverse Current | 5 uA max; VR=5 V, Ta=25°C |
| Brightness Bin K1 | 80-90 lm; IF=700 mA |
| Brightness Bin K2 | 90-100 lm; IF=700 mA |
| Brightness Bin K3 | 100-110 lm; IF=700 mA |
| Voltage Bin N12-7 | 1.8-2.0 V; IF=700 mA |
| Voltage Bin N12-8 | 2.0-2.2 V; IF=700 mA |
| Voltage Bin N12-9 | 2.2-2.4 V; IF=700 mA |
| Wavelength Bin HR01 | 615-620 nm; IF=700 mA |
| Wavelength Bin HR02 | 620-625 nm; IF=700 mA |
| Test Environment Temperature | 25±5°C; unless otherwise indicated |
| Reliability Life Test | 1000 hours, Qty 22, Fail Qty 0; Ta=25±5°C, IF=1000 mA; JIS7021:B4 / JIS7021:B10 |
| High Temperature Storage Test | 1000 hours, Qty 22, Fail Qty 0; Ta=85±5°C; MIL-STD-202:210A / MIL-STD-750:2031 |
| Low Temperature Storage Test | 1000 hours, Qty 22, Fail Qty 0; Ta=-35±5°C; JIS7021:B12 |
| High Temperature Humidity Test | 1000 hours, Qty 22, Fail Qty 0; Ta=85±5°C, RH=85%; JIS7021:B11 / MIL-STD-202:103D |
| Cold / Heat Strike Test | 50 cycles, Qty 22, Fail Qty 0; -10±5°C to 100±5°C, 30 min / 5 min / 5 min; JIS7021:B4 / MIL-STD-202:107D / MIL-STD-750:1026 |
| Cold and Heat Cycle Test | 50 cycles, Qty 22, Fail Qty 0; -35°C to 25°C to 85°C to -35°C, 30 min / 5 min / 30 min / 5 min; JIS7021:A3 / MIL-STD-202:107D / MIL-STD-705:105E |
| Reliability Judging Criterion - Forward Voltage | Max initial data x 1.1; VF at IF=1000 mA |
| Reliability Judging Criterion - Reverse Current | 10 uA max; IR at VR=5 V |
| Reliability Judging Criterion - Luminous Intensity | Min initial data x 0.7; IV at IF=1000 mA |
| Unspecified Dimensional Tolerance | ±0.25 mm; unless otherwise noted |
| Hand Soldering Iron Power | <30 W recommended; manual soldering for repair/rework |
| Hand Soldering Temperature | <300°C; each terminal less than 3 seconds, one time only |
| Reflow Soldering Cycles | 2 times max; Pb-free reflow soldering guidance |
| Recommended Maximum Reflow Temperature | 240±5°C for 6 s; product recommended maximum welding temperature |
| Cleaning Condition | Alcohol cleaning under 30°C for 3 min or 50°C for 30 s; after soldering |
| Ultrasonic Cleaning Power | 300 W max recommended; pretest required to confirm no LED damage |
| Unopened Storage Condition | <=30°C, <60% RH, use within 1 year; before opening moisture-proof anti-electrostatic package |
| Opened Storage Condition | <=30°C, <40% RH, solder within 168 hours / 7 days; after opening package |
| Recommended Workshop Condition | <=30°C, <60% RH; operation/workshop environment after opening |
| Baking Condition | 60±5°C for 24 hours; if moisture absorbent material faded or LEDs exceeded storage time |
| Datasheet Status | request_only |
Product Overview
XL-HD2525SURC-A4 is a XINGLIGHT red high-power SMD LED built in a 2.5 mm x 2.5 mm x 1.85 mm outline. The package uses transparent colloid and is identified as an environmental protection product meeting RoHS requirements. The device is categorized as an LED and is suited to compact red emitter assemblies where the package size and 120 degree typical half-intensity viewing angle are relevant design inputs.
At IF=700 mA and Ta=25°C, the datasheet specifies 80-110 lm luminous flux, 615-625 nm dominant wavelength, 625 nm typical peak wavelength, and 1.8-2.4 V forward voltage. Absolute maximum ratings list 3000 mW power dissipation, 1000 mA forward current, 3000 V electrostatic discharge, -40 to +105°C operating temperature range, and -40 to +85°C storage temperature range.
Assembly guidance includes MSL 3 handling, lead soldering at 260°C max for up to 6 seconds, up to two Pb-free reflow cycles, and a recommended maximum reflow temperature of 240±5°C for 6 seconds. Storage instructions specify unopened storage at <=30°C and <60% RH within one year, and opened storage at <=30°C and <40% RH with soldering within 168 hours.
Key Features
- Red high-power SMD LED with transparent colloid
- 2.5 x 2.5 x 1.85 mm outline dimensions
- 80-110 lm luminous flux at IF=700 mA
- 615-625 nm dominant wavelength at IF=700 mA
- 1.8-2.4 V forward voltage at IF=700 mA
- 120 degree typical half-intensity viewing angle
- 1000 mA absolute maximum forward current rating
- 3000 mW absolute maximum power dissipation
- -40 to +105°C operating temperature range
- MSL 3 moisture sensitivity classification
- Two Pb-free reflow soldering cycles maximum
- RoHS requirements stated as met
Typical Applications
- Red LED emitter designs
- 2.5 mm SMD assemblies
- 700 mA LED modules
- Wide-angle red indication
- RoHS-specified LED products
- MSL 3 handled assemblies
- Pb-free reflow soldered boards
- Temperature-rated LED equipment
Procurement Notes
When requesting a quote for XL-HD2525SURC-A4, 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.
FAQ
What package size is specified for XL-HD2525SURC-A4?
XL-HD2525SURC-A4 is specified as a 2.5 mm x 2.5 mm x 1.85 mm SMD LED. The datasheet also lists an unspecified dimensional tolerance of ±0.25 mm unless otherwise noted.
What optical output is listed at 700 mA?
At IF=700 mA and Ta=25°C, the LED is specified for 80-110 lm luminous flux, 615-625 nm dominant wavelength, 625 nm typical peak wavelength, and a 120 degree typical half-intensity viewing angle.
What forward voltage range applies to this red LED?
The forward voltage range is 1.8-2.4 V at IF=700 mA and Ta=25°C. The datasheet also lists voltage bins N12-7 at 1.8-2.0 V, N12-8 at 2.0-2.2 V, and N12-9 at 2.2-2.4 V.
What handling and storage limits are listed after opening?
After opening the package, storage is specified at <=30°C and <40% RH, with soldering within 168 hours or 7 days. The recommended workshop condition after opening is <=30°C and <60% RH.
What soldering limits are provided for assembly?
The datasheet lists lead soldering at 260°C max for <=6 seconds, Pb-free reflow soldering up to two times, and a recommended maximum reflow temperature of 240±5°C for 6 seconds.
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.



