XL-2106SURSYGC Bi-color Red/Yellow-Green SMD LED

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

XL-2106SURSYGC Bi-color Red/Yellow-Green SMD LED

RFQ Available Sourcing Support Alternative Matching RoHS
Part Number
XL-2106SURSYGC
Manufacturer
XINGLIGHT
Package
SMD LED, 2.0 x 0.6 x 1.0 mm
Category
LED
Product Type
SMD LED

Quick Sourcing Note

XL-2106SURSYGC from XINGLIGHT is a bi-color red/yellow-green SMD LED in a 2.0 x 0.6 x 1.0 mm package with transparent colloid. It supports red luminous intensity of 80-210 mcd and YG luminous intensity of 50-80 mcd at IF=20 mA, Ta=25°C. Dominant wavelength ranges are 620-630 nm for red and 565-575 nm for YG. Both channels specify 1.9-2.3 V forward voltage, 5 V reverse voltage, 30 mA forward working current, and a 120 deg typical viewing angle. Assembly data includes MSL 3 handling, reflow limits, cleaning limits, storage conditions, and baking requirements.

Specifications

TypeDescription
Part NumberXL-2106SURSYGC
ManufacturerXINGLIGHT
Product TypeSMD LED
CategoryLED
Package / CaseSMD LED, 2.0 x 0.6 x 1.0 mm
Outline Dimensions2.0 x 0.6 x 1.0 mm; L/W/H; source page 1
Luminous ColorHigh brightness R and YG; transparent colloid; source page 1
Moisture Sensitivity LevelMSL 3; moisture sensitivity level; source page 1
Consumed Power, Red55 mW; Ta=25°C; source page 3
Consumed Power, YG75 mW; YG channel inferred from bi-color device; table labels this row as B, Ta=25°C; source page 3
Peak Forward Current, Red80 mA; pulse width <=0.1 ms, duty <=1/10, Ta=25°C; source page 3
Peak Forward Current, YG80 mA; YG channel inferred from bi-color device; table labels this row as B, pulse width <=0.1 ms, duty <=1/10, Ta=25°C; source page 3
Forward Working Current, Red30 mA; Ta=25°C; source page 3
Forward Working Current, YG30 mA; YG channel inferred from bi-color device; table labels this row as B, Ta=25°C; source page 3
Reverse Voltage, Red5 V; Ta=25°C; source page 3
Reverse Voltage, YG5 V; YG channel inferred from bi-color device; table labels this row as B, Ta=25°C; source page 3
ESD Withstand Voltage2000 V; antistatic ability, Ta=25°C; source page 3
Operating Ambient Temperature-40°C to +85°C; Topr; source page 3
Storage Ambient Temperature-40°C to +85°C; Tstg; source page 3
Reflow Soldering Condition260°C, 6 s; absolute maximum welding condition; source page 3
Manual Welding Condition300°C, 3 s; absolute maximum welding condition; source page 3
Luminous Intensity, Red80-210 mcd; IF=20 mA, Ta=25°C; source page 4
Luminous Intensity, YG50-80 mcd; IF=20 mA, Ta=25°C; source page 4
Dominant Wavelength, Red620-630 nm; IF=20 mA, Ta=25°C; source page 4
Dominant Wavelength, YG565-575 nm; IF=20 mA, Ta=25°C; source page 4
Peak Wavelength, Red625 nm typ; IF=20 mA, Ta=25°C; source page 4
Peak Wavelength, YG465 nm typ; IF=20 mA, Ta=25°C; value appears inconsistent with YG color and dominant wavelength; source page 4
Half Wave Width, Red20 nm typ; IF=20 mA, Ta=25°C; source page 4
Half Wave Width, YG15 nm typ; IF=20 mA, Ta=25°C; source page 4
Forward Voltage, Red1.9-2.3 V; IF=20 mA, Ta=25°C; source page 4
Forward Voltage, YG1.9-2.3 V; IF=20 mA, Ta=25°C; source page 4
Viewing Angle120 deg typ; 2θ1/2, R/YG, IF=20 mA, Ta=25°C; source page 4
Reverse Current, Red5 uA max; VR=5 V, Ta=25°C; source page 4
Reverse Current, YG5 uA max; VR=5 V, Ta=25°C; source page 4
Brightness Grade D150-80 mcd; IF=20 mA; source page 5
Brightness Grade D280-120 mcd; IF=20 mA; source page 5
Brightness Grade D3120-150 mcd; IF=20 mA; source page 5
Brightness Grade D4150-180 mcd; IF=20 mA; source page 5
Brightness Grade D5180-210 mcd; IF=20 mA; source page 5
Voltage Grade N11-41.9-2.1 V; IF=20 mA; source page 5
Voltage Grade N11-52.1-2.3 V; IF=20 mA; source page 5
Wavelength Grade HR02620-625 nm; IF=20 mA; source page 5
Wavelength Grade HR03625-630 nm; IF=20 mA; source page 5
Wavelength Grade HYG03565-567.5 nm; IF=20 mA; source page 5
Wavelength Grade HYG04567.5-570 nm; IF=20 mA; source page 5
Wavelength Grade HYG05570-572.5 nm; IF=20 mA; source page 5
Wavelength Grade HYG06572.5-575 nm; IF=20 mA; source page 5
Default Test Ambient Temperature25±5°C; unless otherwise indicated; source page 6
Moisture Proof Grade Reliability Test0/22 failures; 260°C max reflow, 10 s, 2 reflows; precondition 30°C, 70%RH, 168 h; JEITA ED-4701 300.301; source page 7
Lead-Free Reflow Welding Reliability Test0/22 failures; 245±5°C maximum reflow, 5 s; JEITA ED-4701 303303A; source page 7
Thermal Cycling Reliability Test0/22 failures; 100 cycles, -40°C 30 min to 25°C 5 min to 100°C 30 min to 25°C 5 min; JESD22-A104; source page 7
Thermal Shock Reliability Test0/22 failures; 100 cycles, -35°C 15 min, conversion time 3 min, 85°C 15 min; JESD22-A106; source page 7
High Temperature Storage Test1000 h, 0/22 failures; Ta=100°C; JESD22-A103; source page 7
Low Temperature Storage Test1000 h, 0/22 failures; Ta=-40°C; JESD22-A119; source page 7
Normal Temperature Aging Test1000 h, 0/22 failures; Ta=25°C, IF=30 mA; JESD22-A108; source page 7
Forward Voltage Failure Criterion> U.S.L * 1.1; IF=30 mA; source page 8
Light Intensity Failure Criterion< L.S.L * 0.7; IF=30 mA; source page 8
Reverse Current Failure Criterion> U.S.L * 2.0; VR=5 V; source page 8
Welding Reliability Failure CriterionSolder paste covering pads less than 95%; welding reliability standard #2; source page 8
Outline Dimension Tolerance±0.25 mm; unless otherwise noted; source page 9
Tape/Reel Dimension Tolerance±0.15 mm; belt and disk dimensions; source page 10
Recommended Manual Soldering Iron Power<30 W; hand soldering only for repair/rework; source page 12
Recommended Maximum Reflow Soldering240±5°C for 6 s; product recommended maximum welding temperature; source page 12
Maximum Reflow Count2 times; reflow soldering process; source page 12
Cleaning ConditionUnder 30°C for 3 min or under 50°C for 30 s; alcohol solvent cleaning after soldering; source page 13
Ultrasonic Cleaning Power≤300 W; pretest required before ultrasonic cleaning; source page 13
Unopened Storage Condition≤30°C, ≤60%RH, use within 1 year; before opening package; source page 14
Opened Storage Condition≤30°C, ≤40%RH, solder within 168 h / 7 days; after opening package; source page 14
Recommended Workshop Condition≤30°C, ≤60%RH; operation after opening package; source page 14
Baking Condition60±5°C for 24 h; if moisture absorbent faded or storage time exceeded; source page 14
Datasheet Statusrequest_only

Product Overview

The XL-2106SURSYGC is a XINGLIGHT bi-color red/yellow-green SMD LED built in a compact 2.0 x 0.6 x 1.0 mm outline. The datasheet identifies the luminous color as high brightness R and YG with transparent colloid, making the device suited to two-color indication functions where both red and yellow-green outputs are required in one SMD LED footprint.

At IF=20 mA and Ta=25°C, the red channel is specified at 80-210 mcd with 620-630 nm dominant wavelength, while the YG channel is specified at 50-80 mcd with 565-575 nm dominant wavelength. Both channels list 1.9-2.3 V forward voltage, 5 uA maximum reverse current at VR=5 V, and a 120 deg typical viewing angle.

Assembly and handling parameters include MSL 3 moisture sensitivity, a recommended maximum reflow condition of 240±5°C for 6 s, up to two reflow cycles, and manual soldering limits. Storage guidance covers unopened, opened, workshop, and baking conditions for moisture-sensitive handling.

Key Features

  • Bi-color red and yellow-green SMD LED
  • 2.0 x 0.6 x 1.0 mm outline
  • Transparent colloid with R and YG luminous color
  • Red luminous intensity 80-210 mcd at 20 mA
  • YG luminous intensity 50-80 mcd at 20 mA
  • Red dominant wavelength 620-630 nm
  • YG dominant wavelength 565-575 nm
  • 1.9-2.3 V forward voltage on both channels
  • 120 deg typical viewing angle
  • MSL 3 moisture sensitivity level
  • -40°C to +85°C operating temperature
  • Reflow process supports maximum two cycles

Typical Applications

  • Bi-color status indicators
  • Compact front-panel indicators
  • Red and yellow-green signal lamps
  • SMD indicator boards
  • Equipment state indication
  • Repair and rework assemblies
  • Moisture-sensitive LED production lines

Procurement Notes

When requesting a quote for XL-2106SURSYGC, 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 does XL-2106SURSYGC use?

XL-2106SURSYGC uses an SMD LED package with outline dimensions of 2.0 x 0.6 x 1.0 mm. The datasheet lists this as the L/W/H outline, with a general outline dimension tolerance of ±0.25 mm unless otherwise noted.

What colors and wavelengths are specified for this LED?

The device is specified as a bi-color red/yellow-green SMD LED. At IF=20 mA and Ta=25°C, red dominant wavelength is 620-630 nm, and YG dominant wavelength is 565-575 nm.

What forward voltage should be used for design review?

Both the red and YG channels list a forward voltage range of 1.9-2.3 V at IF=20 mA and Ta=25°C. Voltage grades N11-4 and N11-5 further split this range into 1.9-2.1 V and 2.1-2.3 V.

What soldering limits are listed for XL-2106SURSYGC?

The datasheet lists an absolute maximum reflow soldering condition of 260°C for 6 s and a manual welding condition of 300°C for 3 s. The recommended maximum reflow soldering condition is 240±5°C for 6 s, with up to two reflow cycles.

How should opened packages be stored before soldering?

After opening, storage is specified at ≤30°C and ≤40%RH, with soldering within 168 h / 7 days. The recommended workshop condition after opening is ≤30°C and ≤60%RH.

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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