XL-IRM0038C Infrared Remote Receiver Sensor

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

XL-IRM0038C Infrared Remote Receiver Sensor

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Part Number
XL-IRM0038C
Manufacturer
XINGLIGHT
Package
epoxy resin plastic encapsulated semi-circular spherical SMD package, 4.5 x 4.0 x 2.3 mm body, 3.1 mm pin length
Category
LED
Product Type
SMD LED

Quick Sourcing Note

XL-IRM0038C is a XINGLIGHT LED-category infrared remote receiver sensor in an epoxy resin plastic encapsulated semi-circular spherical SMD package. The body measures 4.5 x 4.0 x 2.3 mm with 3.1 mm pin length and internal and external dual shielding anti-interference design. Key electrical parameters include 2.7 to 5.5 V recommended supply voltage, 37.9 kHz typical carrier frequency, 6 kHz typical BPF width, and 0.3 to 0.5 mA working current at VDD=5 V. Receive distance is specified at 15 m minimum and 20 m typical on-axis, with 5 m minimum and 7 m typical at left or right 35° angles.

Specifications

TypeDescription
Part NumberXL-IRM0038C
ManufacturerXINGLIGHT
Product TypeSMD LED
CategoryLED
Package Constructionepoxy resin plastic encapsulated semi-circular spherical SMD package; with internal and external dual shielding anti-interference design
Body Dimensions4.5 x 4.0 x 2.3 mm; length x width x height
Pin Length3.1 mm; appearance dimension foot length
Supply Voltage Absolute Maximum6.0 V; Ta=25°C
Operating Ambient Temperature-20°C to +85°C; absolute maximum ratings, Ta=25°C
Storage Ambient Temperature-40°C to +125°C; absolute maximum ratings, Ta=25°C
Wave Soldering Condition240°C, ≤6 s; Tsol
Manual Welding Condition300°C, 3 s; Tsol
Working Current0.3 min, 0.4 typ, 0.5 max mA; VDD=5 V, Ta=25°C
Receive Distance On-Axis15 min, 20 typ m; L 0°, Ta=25°C
Receive Distance Left Angle5 min, 7 typ m; L left 35°, Ta=25°C
Receive Distance Right Angle5 min, 7 typ m; L right 35°, Ta=25°C
Carrier Frequency37.9 kHz typ; Ta=25°C
BPF Width6 kHz typ; Ta=25°C
Low Level Output Voltage250 mV max; Isink=2.0 mA, Ta=25°C
High Level Output Voltage4.5 min, 5.0 max V; VCC=5 V, Ta=25°C
Output Pulse Width Low400 min, 600 typ, 800 max us; burst wave, Vin=500 uVp-p, Ta=25°C
Output Pulse Width High400 min, 640 typ, 800 max us; burst wave, Vin=50 mVp-p, Ta=25°C
Minimum Pulse Width350 us min; Vin=50 mVp-p, Ta=25°C
Minimum Interval450 us min; Vin=50 mVp-p, Ta=25°C
Encoding Pause Time45 us min; Vin=50 mVp-p, Ta=25°C
Receive Distance Test EmitterCH3018-12U; indoor, no direct sunlight on receiving window, 40 W electronic ballast fluorescent lamp 1 m front-above, 200±50 Lux interference
Recommended Supply Voltage2.7 min, 5.5 max V; recommended usage conditions
Recommended Input Frequency37.9 kHz typ; recommended usage conditions
Recommended Operating Temperature25°C typ; recommended usage conditions
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
Outline Dimension Tolerance±0.25 mm; unless otherwise specified
Packaging Dimension Tolerance±0.1 mm; belt and disk dimensions
Hand Soldering Iron Power<30 W; manual repair or rework
Hand Soldering Temperature<300°C; less than 3 s per terminal, one time only
Reflow Soldering Cyclesmaximum 2 times; Pb-free reflow soldering
Cleaning With Alcohol≤30°C for 3 min or ≤50°C for 30 s; after soldering
Ultrasonic Cleaning Power≤300 W; pretest recommended before cleaning
Unopened Storage Condition≤30°C, ≤60% RH, within 1 year; before opening moisture-proof anti-electrostatic package
Opened Storage Condition≤30°C, ≤40% RH, solder within 168 hours; after opening package
Baking Condition60±5°C for 24 hours; if moisture absorbent material failed or storage time exceeded
Recommended Static Field Voltage<100 V; within 1 foot distance from LED element
Datasheet Statusrequest_only

Product Overview

XL-IRM0038C from XINGLIGHT is an infrared remote receiver sensor listed in the LED category. It uses an epoxy resin plastic encapsulated semi-circular spherical SMD package with internal and external dual shielding anti-interference design. The package body is 4.5 x 4.0 x 2.3 mm, and the appearance dimension foot length is 3.1 mm.

The receiver is specified for a 2.7 to 5.5 V recommended supply range and 37.9 kHz typical input frequency. At VDD=5 V and Ta=25°C, working current is 0.3 mA minimum, 0.4 mA typical, and 0.5 mA maximum. Output limits include 250 mV maximum low-level output voltage at Isink=2.0 mA and 4.5 V minimum to 5.0 V maximum high-level output voltage at VCC=5 V.

Receive-distance testing uses a CH3018-12U emitter under indoor conditions with specified fluorescent-lamp interference. On-axis receive distance is 15 m minimum and 20 m typical, while left and right 35° receive distances are 5 m minimum and 7 m typical. Assembly limits include wave soldering at 240°C for no more than 6 s, manual welding at 300°C for 3 s, and up to two Pb-free reflow cycles.

Key Features

  • Epoxy resin plastic encapsulated semi-circular spherical SMD package
  • Internal and external dual shielding anti-interference design
  • 4.5 x 4.0 x 2.3 mm package body
  • 3.1 mm appearance dimension pin length
  • 2.7 to 5.5 V recommended supply voltage
  • 37.9 kHz typical carrier and input frequency
  • 6 kHz typical band-pass filter width
  • 0.3 to 0.5 mA working current at 5 V
  • 15 m minimum, 20 m typical on-axis receive distance
  • 250 mV maximum low-level output voltage

Typical Applications

  • Infrared remote receiver circuits
  • 37.9 kHz remote-control links
  • SMD receiver module assemblies
  • On-axis IR receiving up to 20 m
  • Angled IR receiving at 35°
  • Indoor receiver testing with interference
  • Low-current 5 V receiver designs

Procurement Notes

When requesting a quote for XL-IRM0038C, 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 type of component is XL-IRM0038C?

XL-IRM0038C is an XINGLIGHT infrared remote receiver sensor in the LED category. The datasheet describes an epoxy resin plastic encapsulated semi-circular spherical SMD package with internal and external dual shielding anti-interference design.

What supply voltage is recommended for XL-IRM0038C?

The recommended supply voltage is 2.7 V minimum to 5.5 V maximum. The absolute maximum supply voltage is specified as 6.0 V at Ta=25°C, so designs should use the recommended operating range.

What carrier frequency does XL-IRM0038C use?

The carrier frequency is specified as 37.9 kHz typical at Ta=25°C. The recommended input frequency is also 37.9 kHz typical under recommended usage conditions.

What receive distance is specified for XL-IRM0038C?

On-axis receive distance is 15 m minimum and 20 m typical at Ta=25°C. At left 35° and right 35°, receive distance is 5 m minimum and 7 m typical under the specified conditions.

What soldering limits apply to XL-IRM0038C?

Wave soldering is specified at 240°C for no more than 6 s. Manual welding is specified at 300°C for 3 s, while hand soldering repair uses less than 30 W and less than 300°C for under 3 s per terminal.

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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