PI4ULS5V202QDC Electrical Characteristics Unless otherwise specified, -40°C≤T ≤ A 125°C, 1.2V≤Vcc≤5.5V SymbolParameterTest ConditionsMinTypMaxUnit V V CCB IHB B port Input HIGH Voltage - – - - V 0.2 VILB B port Input LOW Voltage - - - 0.15 V V V CCA IHA A port Input HIGH Voltage - – - - V 0.2 VILA A port Input LOW Voltage - - - 0.15 V V V CCA IH Control Pin Input HIGH Voltage - – - - V 0.2 VIL Control Pin Input LOW Voltage - - - 0.15 V 2/3 * VOHB B port Output HIGH Voltage B port source current = -20 µA - - V VCCB 1/3 * VOLB B port Output LOW Voltage B port sink current =1 mA - - V VCCB 2/3 * VOHA A port Output HIGH Voltage A port source current= -20 µA - - V VCCA 1/3 * VOLA A port Output LOW Voltage A port sink current =1 mA - - V VCCA B port and A port unconnected, VEN IQVCB VCCB Supply Current - 0.5 5.0 µA = VCCA B port and A port unconnected, VEN IQVCA VCCA Supply Current - 0.3 5.0 µA = VCCA B port and A port unconnected, VEN I − TS VCCB B Tri−state Output Mode - 0.1 1 µA = GND A Tri−state Output Mode Supply B port and A port unconnected, VEN I − TS VCCA - 0.1 1 µA Current = GND I/O Tri−state Output Mode I Leakage - 0.1 1.0 µA OZ Current RPU Pull−Up Resistors I/O A and B - 10 - kΩ Note : All units are production tested at TA = +25°C. Limits over the operating temperature range are guaranteed by design. Typical values are for VCCB = +2.8 V, VCCA = +1.8 V and TA = +25°C. AC Electrical Characteristics Timing Characteristics − Rail−to−Rail Driving Configuration (I/O test circuits of Figures 2, 3 and 7, CLOAD = 15 pF, driver output impedance ≤ 50Ω, RLOAD = 1 MΩ, unless otherwise specified) SymbolParameterTest ConditionsMinTypMaxUnitV= 1.8V ,CCAVCCB = 2.8V tRB B port Rise Time - - - 15 nS tFB B port Fall Time - - - 15 nS tRA A port Rise Time - - - 25 nS tFA A port Fall Time - - - 10 nS t - - - PHL−A−B Propagation Delay 15 nS (Driving A) tPLH−A−B - - - 15 nS t - - - PHL−B−A Propagation Delay 15 nS (Driving B) tPLH−B−A - - - 15 nS tPPSKEW Part−to−Part Skew - - - 5 nS MDR Maximum Data Rate - 20 - - Mbps PI4ULS5V202Q www.diodes.com July 2019 Document Number DS41479 Rev 2-2 3