Specifications
| Type | Description |
|---|---|
| Part Number | XL-304PDC |
| Manufacturer | XINGLIGHT |
| Product Type | SMD LED |
| Category | LED |
| Package / Case | F3 / 3.85 x 3.0 x 5.3 x 28 mm through-hole package |
| Appearance Dimension | F3 / 3.85 x 3.0 x 5.3 x 28 mm |
| Optical Function | Infrared receiver tube |
| Colloid Color | Black colloid |
| RoHS Compliance | Complied with RoHS Directive |
| Moisture Sensitivity Level | MSL 2 |
| Standard Packaging | EIA standard packaging |
| Collector-Emitter Voltage Maximum Rating | 30 V |
| Emitter-Collector Voltage Maximum Rating | 5 V |
| Operating Ambient Temperature | -20 to +85 °C |
| Storage Ambient Temperature | -40 to +85 °C |
| Wave Soldering Temperature | 240 °C maximum, <=6 s |
| Manual Soldering Temperature | 300 °C, 3 s |
| Pulse Width Limit | <=0.1 ms |
| Duty Cycle Limit | <=1/10 |
| Collector-Emitter Breakdown Voltage | Min 30 V |
| Emitter-Collector Breakdown Voltage | Min 5 V |
| Collector-to-Emitter Breakdown / Saturation Parameter | Max 0.8 nm; datasheet table labels symbol as Vce(SAT) but unit appears as nm |
| Collector Dark Current | Max 100 nA |
| Rise Time | Typ 3 us |
| Fall Time | Typ 3 us |
| On-State Collector Current Rank 1 | 1 to 2 mA |
| On-State Collector Current Rank 2 | 2 to 4 mA |
| On-State Collector Current Rank 3 | 3 to 8 mA |
| Dimensional Tolerance | ±0.50 mm unless otherwise mentioned |
| Packaging Method | In bags |
| Moisture and ESD Packaging | Moisture-proof and anti-electrostatic foil bag |
| Recommended Storage Temperature | <=30 °C |
| Recommended Storage Humidity | <=70% RH |
| Recommended Original Package Storage Time | No more than 3 months |
| Ethanol Cleaning Time | <=3 minutes |
| Lead Bend Clearance | 2 mm from colloid |
| Human Body Model ESD Limit | HBM <1000 V |
| Machine Model ESD Limit | <100 V |
| Datasheet Status | request_only |
Product Overview
The XL-304PDC is a XINGLIGHT infrared receiver phototransistor categorized under LED components. The datasheet identifies it as an infrared receiver tube with black colloid construction in an F3 through-hole body measuring 3.85 x 3.0 x 5.3 x 28 mm. Outline dimensions are specified with ±0.50 mm tolerance unless otherwise mentioned.
Electrical limits include a 30 V collector-emitter maximum rating and a 5 V emitter-collector maximum rating. Breakdown voltage is specified at a minimum of 30 V for collector-emitter at Ic=100 uA and a minimum of 5 V for emitter-collector at IE=100 uA, both at Ta=25 °C. Collector dark current is rated at 100 nA maximum at Vce=10 V.
Dynamic performance includes typical 3 us rise time and 3 us fall time with Vce=5 V and RL=100 ohm at Ta=25 °C. On-state collector current ranks are specified from 1 to 2 mA, 2 to 4 mA, and 3 to 8 mA under Vce=5 V, Ee=1 mW/cm², lambda=940 nm conditions.
Assembly and handling data include RoHS compliance, MSL 2, EIA standard packaging, bag packaging in moisture-proof anti-electrostatic foil, soldering limits, storage limits, lead bend clearance, and ESD limits.
Key Features
- Infrared receiver tube with black colloid package
- F3 through-hole body, 3.85 x 3.0 x 5.3 x 28 mm
- Collector-emitter voltage maximum rating of 30 V
- Emitter-collector voltage maximum rating of 5 V
- Operating ambient temperature from -20 to +85 °C
- Storage ambient temperature from -40 to +85 °C
- Collector dark current rated 100 nA maximum
- Typical 3 us rise and fall times
- On-state collector current ranks from 1 to 8 mA
- RoHS compliant device with MSL 2 classification
- Moisture-proof anti-electrostatic foil bag packaging
Typical Applications
- Infrared receiver circuits
- 940 nm infrared sensing
- Through-hole sensor assemblies
- Optical object detection
- Remote-control receiver inputs
- IR beam interruption sensing
- Ambient infrared detection modules
Procurement Notes
When requesting a quote for XL-304PDC, 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
LITEON
L32ROPT1D1
Cross-reference candidate from XINGLIGHT replacement table; validate package, optical/electrical parameters, binning and sourcing requirements before substitution.
LITEON
LTR-323DB
Cross-reference candidate from XINGLIGHT replacement table; validate package, optical/electrical parameters, binning and sourcing requirements before substitution.
Application Verification Recommended
FAQ
What type of component is the XL-304PDC?
The XL-304PDC is identified as an infrared receiver phototransistor and infrared receiver tube. It is categorized as an LED component and uses a black colloid F3 through-hole package.
What package size does the XL-304PDC use?
The datasheet lists an F3 through-hole package with physical dimensions of 3.85 x 3.0 x 5.3 x 28 mm. The outline dimension note specifies ±0.50 mm tolerance unless otherwise mentioned.
What are the main voltage ratings for XL-304PDC?
The maximum collector-emitter voltage rating is 30 V, and the maximum emitter-collector voltage rating is 5 V. Breakdown voltage is specified as minimum 30 V collector-emitter and minimum 5 V emitter-collector at Ta=25 °C.
What handling and storage limits are specified?
Recommended storage is <=30 °C and <=70% RH, with no more than 3 months in the original box. The device is MSL 2 and is supplied 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.
