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DLP6500FLQ 데이터시트(PDF) 11 Page - Texas Instruments |
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DLP6500FLQ 데이터시트(HTML) 11 Page - Texas Instruments |
11 / 49 page DLP6500FLQ www.ti.com DLPS040 – OCTOBER 2014 Recommended Operating Conditions (continued) over operating free-air temperature range (unless otherwise noted) MIN NOM MAX UNIT ENVIRONMENTAL(12) For Illumination Source between 420 and 700 nm TDMD DMD temperature – operational(13)(14) 10 40 to 70(14) °C TWINDOW Window temperature – operational 70 °C TGRADIENT Device temperature gradient – operational(15) 10 °C Thermally ILLVIS Illumination, wavelengths between 420 and 700 nm mW /cm2 Limited(16) ENVIRONMENTAL(12) For Illumination Source between 400 and 420 nm TDMD DMD temperature – operational(13)(14) 20 30(14) °C TGRADIENT Device temperature gradient – operational (15) 10 °C ILLVIS Illumination, wavelengths between 400 and 420 nm 2.5 W/cm2 ENVIRONMENTAL(12) For Illumination Source <420 and >700 nm TDMD DMD temperature – operational(13)(14) 10 40 to 70(14) °C TWINDOW Window temperature – operational 70 °C TGRADIENT Device temperature gradient – operational(15) 10 °C ILLUV Illumination, wavelength < 400 nm 0.68 mW /cm2 ILLIR Illumination, wavelength > 700 nm 10 mW /cm2 (12) Optimal, long-term performance and optical effciency of the Digital Micromirror Device (DMD) can be affected by various application parameters, including illumination spectrum, illumination power density, micromirror landed duty-cycle, ambient temperature (storage and operating), DMD temperature, ambient humidity (storage and operating), and power on or off duty cycle. TI recommends that application-specific effects be considered as early as possible in the design cycle. (13) DMD Temperature is the worst-case of any thermal test point in Figure 15, or the active array as calculated by the Micromirror Array Temperature Calculation. (14) Per Figure 1, the maximum operational case temperature should be derated based on the micromirror landed duty cycle that the DMD experiences in the end application. Refer to Micromirror Landed-on/Landed-Off Duty Cycle for a definition of micromirror landed duty cycle. (15) As measured between any two points on the exterior of the package, or as predicted between any two points inside the micromirror array cavity. Refer to Thermal Information and Micromirror Array Temperature Calculation. (16) Refer to Thermal Information and Micromirror Array Temperature Calculation. Copyright © 2014, Texas Instruments Incorporated Submit Documentation Feedback 11 Product Folder Links: DLP6500FLQ |
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