XL-IRM0038F Infrared Remote Receiver Module

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

XL-IRM0038F Infrared Remote Receiver Module

RFQ Available Sourcing Support Alternative Matching RoHS
Part Number
XL-IRM0038F
Manufacturer
XINGLIGHT
Package
Epoxy resin plastic encapsulated semi-circular spherical package, 12.5 x 10 x 5.6 mm body, 16 mm lead length
Category
LED
Product Type
SMD LED

Quick Sourcing Note

XL-IRM0038F from XINGLIGHT is an LED-category infrared remote receiver module in an epoxy resin plastic encapsulated semi-circular spherical package with a 12.5 x 10 x 5.6 mm body and 16 mm lead length. It is specified for 37.9 kHz carrier reception, 2.7 V to 5.5 V recommended supply operation, and 0.53 mA typical working current at 5 V and 25°C. Receiving distance is specified at 15 m typical on-axis, with left and right 35-degree reception listed at 10 m typical. The device is suited to infrared remote-control reception circuits requiring defined pulse timing, soldering limits, ESD handling controls, and storage precautions.

Specifications

TypeDescription
Part NumberXL-IRM0038F
ManufacturerXINGLIGHT
Product TypeSMD LED
CategoryLED
Package / CaseEpoxy resin plastic encapsulated semi-circular spherical package, 12.5 x 10 x 5.6 mm body, 16 mm lead length
Supply Voltage Absolute Maximum6.0 V; Ta=25°C
Operating Ambient Temperature-20°C to +85°C; absolute maximum rating
Storage Ambient Temperature-40°C to +125°C; absolute maximum rating
Wave Soldering Condition260°C, <=6 s; Tsol
Manual Welding Condition300°C, 3 s; Tsol
Working Current0.3 min, 0.53 typ, 0.7 max mA; VDD=5 V, Ta=25°C
Receive Distance at 0 Degrees12 min, 15 typ, 18 max m; Ta=25°C
Receive Distance at Left 35 Degrees8 min, 10 typ m; Ta=25°C
Receive Distance at Right 35 Degrees8 min, 10 typ m; Ta=25°C
Carrier Frequency37.9 typ kHz; Ta=25°C
BPF Width5.0 typ kHz; Ta=25°C
Low Level Output Voltage0.2 typ, 0.4 max V; Isink=2.0 mA, Ta=25°C
High Level Output Voltage4.8 min, 5.0 max V; Ta=25°C
Output Low Pulse Width400 min, 600 typ, 800 max us; burst wave, Vin=500 uVp-p, Ta=25°C
Output High Pulse Width400 min, 600 typ, 800 max us; burst wave, Vin=50 mVp-p, Ta=25°C
Minimum Pulse Width300 min us; Vin=50 mVp-p, Ta=25°C
Minimum Interval Time350 min us; Vin=50 mVp-p, Ta=25°C
Encoding Pause Time23 min us; Vin=50 mVp-p, Ta=25°C
Recommended Supply Voltage2.7 min, 5.5 max V; recommended usage condition
Recommended Input Frequency37.9 typ kHz; recommended usage condition
Recommended Operating Temperature25 typ °C; recommended usage condition
Receive Distance Grade L16 to 8 m; ICC=0.5 mA
Receive Distance Grade L210 to 15 m; ICC=0.5 mA
Receive Distance Grade L315 to 20 m; ICC=0.5 mA
Working Voltage Grade V12.5 to 5.5 V; ICC=0.5 mA
Working Voltage Grade V22.7 to 5.5 V; ICC=0.5 mA
Working Current Grade I10.3 to 0.5 mA; VDD=5 V
Working Current Grade I20.4 to 0.7 mA; VDD=5 V
Solder Heat Resistance Test260°C ±5°C, within 5 s, 20/20 passed; reliability test, non-stressed state
ESD Destruction Test4 kV, 20/20 passed; 100 pF capacitor, 1.5 kOhm resistor, each pin
Vibration Test30 min, 20/20 passed; 10-50 Hz/1 min, amplitude 1.5 mm, X/Y/Z axes
High Temperature Storage Test85°C ±2°C, 240 h, 20/20 passed; reliability test
Low Temperature Storage Test-20°C ±2°C, 240 h, 20/20 passed; reliability test
High Temperature High Humidity Storage Test85°C, 85% RH, 240 h, 20/20 passed; reliability test
Thermal Cycle Test10 cycles, 20/20 passed; -20°C for 30 s, +85°C for 30 s
Lead Bend Test2 bends per lead, 20/20 passed; 2.5 N external force applied to each pin
Dimensional Tolerance±0.25 mm; unless otherwise specified
Storage Humidity Limit<=70% RH; storage precaution
Original Packaging Storage Time<=3 months; recommended storage in original box
Ethanol Cleaning Time<=3 min; at room temperature
Lead Forming Distance>=2 mm from colloid; pin/support bending precaution
Recommended Soldering Distance>=2 mm below colloid bottom; welding precaution
Recommended Iron Soldering Temperature300°C max; soldering time 3 s max
Recommended Wave Soldering Preheat Temperature100°C max; preheat time 60 s max
Recommended Wave Soldering Temperature240°C max; soldering time 6 s max
Human Body Model ESD Handling Limit<1000 V; use antistatic protection during handling
Machine Discharge Model ESD Handling Limit<100 V; use antistatic protection during handling
Datasheet Statusrequest_only

Product Overview

XL-IRM0038F is a XINGLIGHT infrared remote receiver module classified in the LED category. The component uses an epoxy resin plastic encapsulated semi-circular spherical package with a 12.5 x 10 x 5.6 mm body and 16 mm lead length, with dimensional tolerance of ±0.25 mm unless otherwise specified.

Electrical operation is centered on a 37.9 kHz typical carrier frequency with a 5.0 kHz typical BPF width. Recommended supply voltage is 2.7 V to 5.5 V, while the absolute maximum supply voltage is 6.0 V at 25°C. Working current is specified as 0.3 mA minimum, 0.53 mA typical, and 0.7 mA maximum at VDD=5 V and 25°C.

Reception performance includes 12 m minimum, 15 m typical, and 18 m maximum receive distance at 0 degrees, with 8 m minimum and 10 m typical at left and right 35 degrees. Assembly guidance includes wave soldering, manual soldering, lead forming, cleaning, storage humidity, and ESD handling limits for infrared receiver applications.

Key Features

  • Infrared remote receiver module for 37.9 kHz carrier signals
  • Recommended supply voltage range from 2.7 V to 5.5 V
  • 0.53 mA typical working current at 5 V
  • 15 m typical on-axis receive distance at 25°C
  • 10 m typical receive distance at ±35 degrees
  • 5.0 kHz typical band-pass filter width
  • Low output voltage up to 0.4 V at 2.0 mA sink
  • 400 us to 800 us output pulse width range
  • Epoxy resin semi-circular spherical plastic package
  • Wave soldering specified to 240°C for 6 s maximum

Typical Applications

  • Infrared remote control receivers
  • Consumer electronics IR input circuits
  • Set-top box remote interfaces
  • TV and display remote reception
  • Audio equipment remote receivers
  • Appliance remote-control panels
  • Embedded IR command receivers

Procurement Notes

When requesting a quote for XL-IRM0038F, 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 is the recommended supply voltage for XL-IRM0038F?

The recommended supply voltage for XL-IRM0038F is 2.7 V minimum to 5.5 V maximum. The datasheet also lists 6.0 V as the absolute maximum supply voltage at Ta=25°C.

What carrier frequency does XL-IRM0038F receive?

XL-IRM0038F is specified for a 37.9 kHz typical carrier frequency at Ta=25°C. The recommended input frequency is also listed as 37.9 kHz typical.

What receive distance is specified for XL-IRM0038F?

At 0 degrees and Ta=25°C, receive distance is specified as 12 m minimum, 15 m typical, and 18 m maximum. At left and right 35 degrees, the listed receive distance is 8 m minimum and 10 m typical.

What soldering limits apply to this receiver module?

Recommended soldering guidance includes iron soldering at 300°C maximum for 3 s maximum and wave soldering at 240°C maximum for 6 s maximum after preheating at 100°C maximum for 60 s maximum.

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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