JAJSUI1 May 2024 DLP472TE
ADVANCE INFORMATION
MIN | TYP | MAX | UNIT | ||
---|---|---|---|---|---|
SUPPLY VOLTAGES (1) (2) | |||||
VDD | Supply voltage for LVCMOS core logic and low-speed interface (LSIF) | 1.71 | 1.8 | 1.95 | V |
VDDA | Supply voltage for high speed serial interface (HSSI) receivers | 1.71 | 1.8 | 1.95 | V |
VOFFSET | Supply voltage for HVCMOS and micromirror electrode(3) | 9.5 | 10 | 10.5 | V |
VBIAS | Supply voltage for micromirror electrode | 17.5 | 18 | 18.5 | V |
VRESET | Supply voltage for micromirror electrode | –14.5 | –14 | –13.5 | V |
| VDDA – VDD | | Supply voltage delta, absolute value(4) | 0.3 | V | ||
| VBIAS – VOFFSET | | Supply voltage delta, absolute value(5) | 10.5 | V | ||
| VBIAS – VRESET | | Supply voltage delta, absolute value | 33 | V | ||
LVCMOS INPUT | |||||
VIH | High-level input voltage(6) | 0.7 × VDD | V | ||
VIL | Low-level input voltage(6) | 0.3 x VDD | V | ||
LOW SPEED SERIAL INTERFACE (LSIF) | |||||
fCLOCK | LSIF clock frequency (LS_CLK)(8) | 108 | 120 | 130 | MHz |
DCDIN | LSIF duty cycle distortion (LS_CLK) | 44% | 56% | ||
| VID | | LSIF differential input voltage magnitude(8) | 150 | 350 | 440 | mV |
VLVDS | LSIF voltage(8) | 575 | 1520 | mV | |
VCM | Common mode voltage(8) | 700 | 900 | 1300 | mV |
ZLINE | Line differential impedance (PWB/trace) | 90 | 100 | 110 | Ω |
ZIN | Internal differential termination resistance | 80 | 100 | 120 | Ω |
HIGH SPEED SERIAL INTERFACE (HSSI) | |||||
fCLOCK | HSSI clock frequency (DCLK)(7) | 1.2 | 1.6 | GHz | |
DCDIN | HSSI duty cycle distortion (DCLK) | 44% | 50% | 56% | |
| VID | Data | HSSI differential input voltage magnitude Data Lane(7) | 100 | 600 | mV | |
| VID | CLK | HSSI differential input voltage magnitude Clock Lane(7) | 295 | 600 | mV | |
VCMDC Data | Input common mode voltage (DC) Data Lane(7) | 200 | 600 | 800 | mV |
VCMDC CLK | Input common mode voltage (DC) Clk Lane(7) | 200 | 600 | 800 | mV |
VCMACp-p | AC peak to peak (ripple) on common mode voltage of Data Lane and Clock Lane(7) | 100 | mV | ||
ZLINE | Line differential impedance (PWB/trace) | 100 | Ω | ||
ZIN | Internal differential termination resistance ( RXterm ) | 80 | 100 | 120 | Ω |
ENVIRONMENTAL | |||||
TARRAY | Array temperature, long–term operational(9)(10)(11) | 10 | 40 to 70 (12) | °C | |
Array temperature, short-term operational, 500 hr max(10)(13) | 0 | 10 | °C | ||
TDP-AVG | Average dew point temperature (non–condensing)(14) | 28 | °C | ||
TDP-ELR | Elevated dew point temperature range (non-condensing)(15) | 28 | 36 | °C | |
CTELR | Cumulative time in elevated dew point temperature range | 24 | months | ||
QAP-LL | Window Aperture illumination overfill(16)(17)(18) | 17 | W/cm2 | ||
LAMP ILLUMINATION | |||||
ILLUV | Illumination power at wavelength < 395nm(9)(20) | 0.68 | 2 | mW/cm2 | |
ILLVIS | Illumination power at wavelengths ≥395nm and ≤800nm(19)(20) | 36.8 | W/cm2 | ||
ILLIR | Illumination power at wavelength > 800nm(20) | 10 | mW/cm2 | ||
SOLID STATE ILLUMINATION | |||||
ILLUV | Illumination power at wavelength < 410nm(9)(20) | 10 | mW/cm2 | ||
ILLVIS | Illumination power at wavelengths between ≥410nm and ≤800nm(19)(20) | 46.8 | W/cm2 | ||
ILLIR | Illumination power at wavelength > 800nm(20) | 10 | mW/cm2 | ||
ILLBLU | Illumination power at wavelengths between ≥410nm and ≤475nm(19)(20) | 14.9 | W/cm2 | ||
ILLBLU1 | Illumination power at wavelengths between ≥410nm and ≤440nm(19)(20) | 2.4 | W/cm2 |