ZHCSO64B September 2020 – April 2022 DLP471TE
PRODUCTION DATA
PARAMETER (1)(2) | TEST CONDITIONS (1) | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|---|
CURRENT – TYPICAL | ||||||
IDD | Supply current VDD(3) | 800 | 1200 | mA | ||
IDDA | Supply current VDDA(3) | 1000 | 1200 | mA | ||
IDDA | Supply current VDDA(3) | Single macro mode | 500 | 600 | mA | |
IOFFSET | Supply current VOFFSET(4)(5) | 20 | 25 | mA | ||
IBIAS | Supply current VBIAS(4)(5) | 2.5 | 4.0 | mA | ||
IRESET | Supply current VRESET(5) | -9.3 | -6.9 | mA | ||
POWER – TYPICAL | ||||||
PDD | Supply power dissipation VDD(3) | 1440 | 2437.5 | mW | ||
PDDA | Supply power dissipation VDDA(3) | 1620 | 2340 | mW | ||
PDDA | Supply power dissipation VDDA(3) | single macro mode | 900 | 1170 | mW | |
POFFSET | Supply power dissipation VOFFSET(4)(5) | 230 | 367.5 | mW | ||
PBIAS | Supply power dissipation VBIAS(4)(5) | 43.2 | 70.3 | mW | ||
PRESET | Supply power dissipation VRESET(5) | 107.8 | 152.25 | mW | ||
PTOTAL | Supply power dissipation Total | 3441 | 5367.55 | mW | ||
LVCMOS INPUT | ||||||
IIL | Low level input current (6) | VDD = 1.95 V, VI = 0 V | –100 | nA | ||
IIH | High level input current (6) | VDD = 1.95 V, VI = 1.95 V | 135 | μA | ||
LVCMOS OUTPUT | ||||||
VOH | DC output high voltage (7) | IOH = -2 mA | 0.8 x VDD | V | ||
VOL | DC output low voltage (7) | IOL = 2 mA | 0.2 x VDD | V | ||
RECEIVER EYE CHARACTERISTICS | ||||||
A1 | Minimum data eye opening (8)(9) | 100 | 600 | mV | ||
Minimum clock eye opening (8)(9) | 295 | 600 | mV | |||
A2 | Maximum data signal swing (8)(9) | 600 | mV | |||
X1 | Maximum data eye closure (8) | 0.275 | UI | |||
X2 | Maximum data eye closure (8) | 0.4 | UI | |||
| tDRIFT | | Drift between Clock and Data between Training Patterns | 20 | ps | |||
CAPACITANCE | ||||||
CIN | Input capacitance LVCMOS | f = 1 MHz | 10 | pF | ||
CIN | Input capacitance LSIF (low speed interface) | f = 1 MHz | 20 | pF | ||
CIN | Input capacitance HSSI (high speed serial interface) | f = 1 MHz | 20 | pF | ||
COUT | Output capacitance | f = 1 MHz | 10 | pF |