Datasheet DPO2039DABQ-13 (Diodes) - 4
| Manufacturer | Diodes |
| Description | 4-CH Over-Voltage Protection for CC/DIFF Pins on USB Type-C |
| Pages / Page | 13 / 4 — DPO2039DABQ-13. Recommended Operating Conditions. Symbol. Parameter. Min. … |
| File Format / Size | PDF / 1.0 Mb |
| Document Language | English |
DPO2039DABQ-13. Recommended Operating Conditions. Symbol. Parameter. Min. Max. Unit. Electrical Characteristics. Test Conditions. Typ
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DPO2039DABQ-13 Recommended Operating Conditions
(@ TA = +25°C, unless otherwise specified.)
Symbol Parameter Min Max Unit
VVSYS Input Supply Voltage at VSYS Pin 2.7 5.5 V VFAULTB Power Rail for Pull-Up on FAULTB Pin 2.7 5.5 V VCB Voltage across CB Pin 0 5.5 V VCCxC, VCCxS I/O Voltage at CC1C, CC2C, CC1S, CC2S Pins 0 5.5 V V
DIFFxC, VDIFFxS I/O Voltage at DIFF1C, DIFF2C, DIFF1S, DIFF2S Pins 0 4.2 V
T
Output Current Flowing into CCxS and out of CCxC, with V I CCxS – VCCxC ≤ VCCX — 600 mA
C
250mV
U D O R Electrical Characteristics
(@ TA = +25°C, VVSYS = 4.2V, unless otherwise specified.)
P Symbol Parameter Test Conditions Min Typ Max Unit W CC OVP Switches E
VCCxC = 5.5V, TA ≤ +85°C — 300 450 mΩ
N
RDS(ON)_CC On Resistance of CC OVP FETs VCCxC = 5.5V, TA ≤ +105°C — 300 480 mΩ RDS(ONFLAT)_CC On Resistance Flatness of CC OVP FETs VCCxC = 0.1 to 1.2V — — 5 mΩ Capacitance from CCxC or CCxS to CON_CC Equivalent ON Capacitance GND when device is powered, — 50 — pF (VCCxC / VCCxS) = 0V to 1.2V VTH_OVP_CCxC OVP Threshold on CCxC Signal — 5.6 6 6.25 V VTH_OVP_HYS_CCxC OVP Hysteresis on CCxC Signal — — 140 — mV BWON_CC Measured from CCxC to CCxS, 50Ω CC Line ON Bandwidth Single Ended (-3dB) — 200 — MHz (Note 6) system, VCM = 0.1V to 1.2V Hot-plug CCxC with a 1 meter USB VSHT_CCxC_MAX Short-to-VBUS Tolerance on the CCxC Pins Type-C cable, place a 30Ω load on — — 24 V (Note 6) CCxS Hot-plug CCxC with a 1 meter USB VSHT_CCxS_CL Short-to-VBUS Clamping Voltage on the Type-C cable, place a 30Ω load on — 7 — V (Note 6) CCxS Pins CCxS. Hot plug voltage VCCxC = 24V
DIFF OVP Switches
VDIFFxC = 3.6V, TA = +85°C — 5 — Ω RDS(ON)_DIFF On Resistance of DIFF OVP FETs VDIFFxC = 3.6V, TA = +105°C — 5 — Ω RDS(ONFLAT)_DIFF On Resistance Flatness of DIFF OVP FETs VDIFFxC = 0.1 to 3.6V — — 1 Ω Capacitance from DIFFxC or DIFFxS to GND when device is CON_DIFF Equivalent ON Capacitance — 5 — pF powered. VDIFFxC / VDIFFxS = 0V to 3.6V VTH_OVP_DIFFxC OVP Threshold on DIFFxC Signals — 4.15 4.5 4.75 V VTH_OVP_HYS_DIFFxC OVP Hysteresis on DIFFxC Signals — — 110 — mV BWON_DIFF DIFF line ON Bandwidth Single Ended Measured from DIFFxC to DIFFxS, — 100 — MHz (Note 6) (-3dB) 50Ω system, VCM = 0.1V to 3.6V 0 Hot-plug DIFFxC with a 1 meter VSHTBUS_DIFFxC_MAX Short-to-VBUS Tolerance on the DIFFxC USB Type-C cable, place a 40Ω in — — 24 V (Note 6) Pins series with 150nF to GND on DIFFxS pin Hot-plug DIFFxC with a 1 meter USB Type-C cable, place a 40Ω in VSHTBUS_DIFFxS_CL Short-to-VBUS Clamping Voltage on the series with 100nF to GND on — 7 — V (Note 6) DIFFxS Pins DIFFxS pin. Hot plug voltage VDIFFxC = 24V, VVSYS = 3.3V Measure crosstalk at f = 1MHz, from XTALK_DIFFx DIFF1S to DIFF2C or DIFF2 to Crosstalk between DIFFx Lines — -80 — dB (Note 6) DIFF1C. VCM1 = 3.6V, VCM2 = 0.3V, terminate open sides to 50Ω DPO2039DABQ-13 4 of 13 December 2019 Document number: DS41005 Rev. 1 - 2
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© Diodes Incorporated
(@ TA = +25°C, unless otherwise specified.)
Symbol Parameter Min Max Unit
VVSYS Input Supply Voltage at VSYS Pin 2.7 5.5 V VFAULTB Power Rail for Pull-Up on FAULTB Pin 2.7 5.5 V VCB Voltage across CB Pin 0 5.5 V VCCxC, VCCxS I/O Voltage at CC1C, CC2C, CC1S, CC2S Pins 0 5.5 V V
DIFFxC, VDIFFxS I/O Voltage at DIFF1C, DIFF2C, DIFF1S, DIFF2S Pins 0 4.2 V
T
Output Current Flowing into CCxS and out of CCxC, with V I CCxS – VCCxC ≤ VCCX — 600 mA
C
250mV
U D O R Electrical Characteristics
(@ TA = +25°C, VVSYS = 4.2V, unless otherwise specified.)
P Symbol Parameter Test Conditions Min Typ Max Unit W CC OVP Switches E
VCCxC = 5.5V, TA ≤ +85°C — 300 450 mΩ
N
RDS(ON)_CC On Resistance of CC OVP FETs VCCxC = 5.5V, TA ≤ +105°C — 300 480 mΩ RDS(ONFLAT)_CC On Resistance Flatness of CC OVP FETs VCCxC = 0.1 to 1.2V — — 5 mΩ Capacitance from CCxC or CCxS to CON_CC Equivalent ON Capacitance GND when device is powered, — 50 — pF (VCCxC / VCCxS) = 0V to 1.2V VTH_OVP_CCxC OVP Threshold on CCxC Signal — 5.6 6 6.25 V VTH_OVP_HYS_CCxC OVP Hysteresis on CCxC Signal — — 140 — mV BWON_CC Measured from CCxC to CCxS, 50Ω CC Line ON Bandwidth Single Ended (-3dB) — 200 — MHz (Note 6) system, VCM = 0.1V to 1.2V Hot-plug CCxC with a 1 meter USB VSHT_CCxC_MAX Short-to-VBUS Tolerance on the CCxC Pins Type-C cable, place a 30Ω load on — — 24 V (Note 6) CCxS Hot-plug CCxC with a 1 meter USB VSHT_CCxS_CL Short-to-VBUS Clamping Voltage on the Type-C cable, place a 30Ω load on — 7 — V (Note 6) CCxS Pins CCxS. Hot plug voltage VCCxC = 24V
DIFF OVP Switches
VDIFFxC = 3.6V, TA = +85°C — 5 — Ω RDS(ON)_DIFF On Resistance of DIFF OVP FETs VDIFFxC = 3.6V, TA = +105°C — 5 — Ω RDS(ONFLAT)_DIFF On Resistance Flatness of DIFF OVP FETs VDIFFxC = 0.1 to 3.6V — — 1 Ω Capacitance from DIFFxC or DIFFxS to GND when device is CON_DIFF Equivalent ON Capacitance — 5 — pF powered. VDIFFxC / VDIFFxS = 0V to 3.6V VTH_OVP_DIFFxC OVP Threshold on DIFFxC Signals — 4.15 4.5 4.75 V VTH_OVP_HYS_DIFFxC OVP Hysteresis on DIFFxC Signals — — 110 — mV BWON_DIFF DIFF line ON Bandwidth Single Ended Measured from DIFFxC to DIFFxS, — 100 — MHz (Note 6) (-3dB) 50Ω system, VCM = 0.1V to 3.6V 0 Hot-plug DIFFxC with a 1 meter VSHTBUS_DIFFxC_MAX Short-to-VBUS Tolerance on the DIFFxC USB Type-C cable, place a 40Ω in — — 24 V (Note 6) Pins series with 150nF to GND on DIFFxS pin Hot-plug DIFFxC with a 1 meter USB Type-C cable, place a 40Ω in VSHTBUS_DIFFxS_CL Short-to-VBUS Clamping Voltage on the series with 100nF to GND on — 7 — V (Note 6) DIFFxS Pins DIFFxS pin. Hot plug voltage VDIFFxC = 24V, VVSYS = 3.3V Measure crosstalk at f = 1MHz, from XTALK_DIFFx DIFF1S to DIFF2C or DIFF2 to Crosstalk between DIFFx Lines — -80 — dB (Note 6) DIFF1C. VCM1 = 3.6V, VCM2 = 0.3V, terminate open sides to 50Ω DPO2039DABQ-13 4 of 13 December 2019 Document number: DS41005 Rev. 1 - 2
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© Diodes Incorporated
