HLMT-PH00资料

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Subminiature High PerformanceAlInGaP LED LampsTechnical Data

Features

• Subminiature Flat TopPackage

Ideal for Backlighting and LightPiping Applications

• Subminiature Dome PackageNondiffused Dome for HighBrightness

• Wide Range of DriveCurrents

• Colors: 590 nm Amber,615nm Reddish-Orange• Ideal for Space LimitedApplications• Axial Leads

• Available with Lead

Configurations for SurfaceMount and Through Hole PCBoard Mounting

Description

Flat Top Package

The HLMX-PXXX flat top lampsuse an untinted, nondiffused,truncated lens to provide a wideradiation pattern that is necessaryfor use in backlighting applica-tions. The flat top lamps are alsoideal for use as emitters in lightpipe applications.

59-93E

Dome Packages

The HLMX-QXXX dome lamps usean untinted, nondiffused lens toprovide a high luminous intensitywithin a narrow radiation pattern.Lead Configurations

All of these devices are made byencapsulating LED chips on axiallead frames to form molded epoxysubminiature lamp packages. Avariety of package configurationoptions is available. These includespecial surface mount leadconfigurations, gull wing, yokelead, or Z-bend. Right angle leadbends at 2. mm (0.100 inch)and 5.08 mm (0.200 inch) centerspacing are available for throughhole mounting. For more infor-mation refer to Standard SMT andThrough Hole Lead Bend Optionsfor Subminiature LED Lamps datasheet.

Technology

These subminiature solid statelamps utilize one of the two newly

SunPower Series

HLMA-PH00HLMT-PH00HLMA-PL00HLMT-PL00HLMA-QH00HLMT-QH00HLMA-QL00HLMT-QL00

developed aluminum indium

gallium phosphide (AlInGaP) LEDtechnologies, either the absorbingsubstrate carrier technology (AS= HLMA-Devices) or thetransparent substrate carriertechnology (TS = HLMT-Devices). The TS HLMT-Devicesare especially effective in verybright ambient lighting condi-tions. The colors 590 nm amberand 615nm reddish-orange areavailable with viewing angles of15° for the domed devices and125° for the flat top devices.

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Device Selection Guide

Package DescriptionDomed, NondiffusedUntinted

Flat Top, Nondiffused,Untinted

Viewing Angle

2θ1/228°

125°

Amberλd = 590 nmHLMA-QL00HLMT-QL00HLMA-PL00HLMT-PL00

Reddish-Orangeλd = 615 nmHLMA-QH00HLMT-QH00HLMA-PH00HLMT-PH00

PackageOutlineB

A

Package Dimensions

(A) Flat Top Lamps

1.40(0.055)1.65(0.065)CATHODE1.14(0.045)1.40(0.055)0.58(0.023)0.43(0.017)1.91(0.075)2.41(0.095)0.50 (0.020) REF.11.68(0.460)10.67(0.420)BOTH SIDESANODE1.65(0.065)DIA.1.91(0.075)0.20 (0.008) MAX. 0.46(0.018)0.56(0.022)0.25 (0.010) MAX. NOTE 20.76 (0.030) MAX.CATHODESTRIPE0.18(0.007)0.23(0.009)1.91(0.075)2.16(0.085)2.08(0.082)2.34(0.092)(B) Domed Lamps, Diffused and Nondiffused

0.50 (0.020) REF.11.68(0.460)10.67(0.420)BOTH SIDESCATHODE0.18(0.007)0.23(0.009)0.76(0.030)R.0.(0.035)0.94(0.037)1.24(0.049)2.03 (0.080)1.78 (0.070)2.92 (0.115)MAX.ANODE1.65(0.065)DIA.1.91(0.075)0.20 (0.008) MAX. 0.46(0.018)0.56(0.022)0.25 (0.010) MAX.NOTE 20.79 (0.031)0.53 (0.021)1.91(0.075)2.16(0.085)0.63(0.025)0.38(0.015)2.08(0.082)2.34(0.092)CATHODESTRIPENOTES:1. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).2. PROTRUDING SUPPORT TAB IS CONNECTED TO CATHODE LEAD.1-162

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Absolute Maximum Ratings at TA = 25°C

HLMA-QL00/QH00/PL00/PH00

Peak Forward Current[2]........................................................... 200 mAAverage Forward Current (IPEAK = 200 mA)[1,2]......................... 45 mADC Forward Current[3,5,6]........................................................... 50 mAPower Dissipation.................................................................... 105 mWHLMT-QL00/QH00/PL00/PH00

Peak Forward Current[2]........................................................... 100 mAAverage Forward Current (IPEAK = 100 mA)[1,2]......................... 37 mADC Forward Current[3,5,6]........................................................... 50 mAPower Dissipation.................................................................... 120 mWAll Devices

Reverse Voltage (IR = 100 µA)........................................................ 5 VTransient Forward Current (10 µs Pulse)[5].............................. 500 mAOperating Temperature Range....................................... -40 to +100°CStorage Temperature Range.......................................... -55 to +100°CLED Junction Temperature.......................................................... 110°CLead Soldering Temperature

[1.6 mm (0.063 in.) from body.......................... 260°C for 5 secondsSMT Reflow Soldering Temperatures

Convective Reflow............. 235°C Peak, above 183°C for 90 secondsVapor Phase Reflow........................................... 215°C for 3 minutes

Notes:

1. Maximum IAVG at f = 1 kHz.

2. Refer to Figure 6 to establish pulsed operating conditions.3. Derate linearly as shown in Figure 4.

4. The transient peak current is the maximum non-recurring peak current these devicescan withstand without damaging the LED die and wire bonds. Operation at currentsabove Absolute Maximum Peak Forward Current is not recommended.

5. Drive currents between 5 mA and 30 mA are recommended for best long termperformance.

6. Operation at currents below 5 mA is not recommended, please contact your Hewlett-Packard sales representative.

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CATHODETABNO. ANODE DOWN.YES. CATHODE DOWN.Figure 1. Proper Right Angle Mounting to a PC Board to Prevent Protruding Cathode Tab from Shorting to AnodeConnection.

Optical Characteristics at TA = 25°C

PartNumberHLMA-QL00QH00PL00PH00HLMT-QL00QH00PL00PH00

LuminousIntensityIV (mcd)@ 20 mA[1]Min. Typ.13550013550023752275

Total Flux

φV (mlm)@ 20 mA[2]

Typ.250250250250

PeakWavelengthλpeak (nm)Typ.592621592621

592621592621

Color,DominantWavelengthλd[3] (nm)Typ.590615590615

590615590615

ViewingAngle2 θ1/2Degrees[4]

Typ.1515125125

1515125125

LuminousEfficacyηv[5](lm/w)480263480263

480263480263

300 80010002908008004615080035120800

Notes:

1. The luminous intensity, Iv, is measured at the mechanical axis of the lamp package. The actual peak of the spatial radiation patternmay not be aligned with this axis.

2. φv is the total luminous flux output as measured with an integrating sphere.

3. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the device.4. θ1/2 is the off-axis angle where the liminous intensity is 1/2 the peak intensity.

5. Radiant intensity, Iv, in watts/steradian, may be calculated from the equation Iv = Iv/ηv, where Iv is the luminous intensity in candelasand ηv is the luminous efficacy in lumens/watt.

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1.0AMBERRELATIVE INTENSITYREDDISH󰀀ORANGE0.50550594600621630650700WAVELENGTH – nmFigure 1. Relative Intensity vs. Wavelength. All Devices.

Electrical Characteristics at TA = 25°C

PartNumberHLMA-QL00QH00PL00PH00HLMT-QL00QH00PL00PH00

ForwardVoltageVF (Volts)@ IF = 20 mATyp. Max.1.92.41.92.41.92.41.92.42.02.02.02.0

2.42.42.42.4

ReverseBreakdownVR (Volts)@ IR = 100 µAMin. Typ.5255255255255555

20202020

CapacitanceC (pF)VF = 0,f = 1 MHzTyp.40404040

70707070

ThermalResistanceRθJ-PIN (°C/W)

170170170170

170170170170

Speed of Response

τs (ns)

Time Constant

e-t/τsTyp.13131313

13131313

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200A180m –160 TNE140RR120UC 100DRA80WR60OF 40– FI2001.01.52.02.53.0VF – FORWARD VOLTAGE – VFigure 2a. Forward Current vs.

Forward Voltage. HLMA-QL00/QH00/PL00/PH00.2.5YTIS)NEA2.0Tm N0I2 STUA1.5O NDIEMZIULLA1.0 EMVRITOAN0.5L(ER001020304050IF – DC FORWARD CURRENT – mAFigure 3a. Relative Luminous Intensityvs. DC Forward Current. HLMA-QL00/QH00/PL00/PH00.50Am f > 1 KHz– T40NERf > 300 HzRU30C EGAR20f > 100 HzEVA – 10GVAI050100150200IPEAK – PEAK FORWARD CURRENT – mAFigure 5a. Maximum Average Currentvs. Peak Forward Current for HLMA-QL00/QH00/PL00/PH00.1-166

100A90m –80 TNE70RR60UC 50DRA40WR30OF 20– FI1001.52.02.53.03.5VF – FORWARD VOLTAGE – VFigure 2b. Forward Current vs.

Forward Voltage. HLMT-QL00/QH00/PL00/PH00.

4.0YTIS)NEATm3.0 N0I2 STUAO NDIE2.0MZIULLA EMVRI1.0TOANL(ER00102030405060IF – DC FORWARD CURRENT – mAFigure 3b. Relative Luminous

Intensity vs. DC Forward Current.HLMT-QL00/QH00/PL00/PH00.

50Amf > 1 KHz – T40NERRU30f > 300 HzC EGAR20f > 100 HzEVA = 10GVAI0505867758392100IPEAK – PEAK FORWARD CURRENT – mAFigure 5b. Maximum Average Currentvs. Peak Forward Current for HLMT-QL00/QH00/PL00/PH00.

A50m – TN40ERθRJ-A = 380° C/WRUC30 DRRθJ-A = 476° C/WAW20ROF –10 FI0020406080100TA – AMBIENT TEMPERATURE – °CFigure 4. Maximum Forward Currentvs. Ambient Temperature for HLMA-/HLMT-QL00/QH00/PL00/PH00.

Derating Based on TJMAX = 110 °C.

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1.00.9 YT0.8ISN0.7ETN0.6I D0.5EZIL0.4AM0.3RON0.20.10-50-40-30-20-1001020304050ANGULAR DISPLACEMENT – DEGREESFigure 6. Relative Luminous Intensity vs. Angular Displacement for HLMA-/HLMT-QL00/-QH00.

1.11.0Y0.9TISN0.8ET0.7NI 0.6DEZ0.5ILA0.4MR0.3ON0.20.101009080706050403020100102030405060708090100ANGULAR DISPLACEMENT – DEGREESFigure 7. Relative Luminous Intensity vs. Angular Displacement for HLMA-/HLMT-PL00/-PH00.

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