SLLSF86C May 2018 – March 2022
PRODUCTION DATA
MODE = GND2 | VDD = 3.3 V | RE = GND1 |
TA = 25°C | DE = VIO |
MODE = GND2 | VDD = 3.3 V | RE = GND1 |
TA = 25°C | DE = VIO |
MODE = GND2 | VDD = 3.3 V | RE = GND1 |
DE = VIO |
MODE = GND2 | VDD = 3.3 V | RE = GND1 |
DE = VIO |
MODE = GND2 | VDD = 3.3 V | DE = VIO |
LOAD = 54 Ω || 50pF |
MODE = VISOOUT | VDD = 5 V | DE = VIO |
LOAD = 54 Ω || 50pF |
MODE = GND2 | VDD = 3.3 V | RE = GND1 |
LOAD = 54 Ω || 50pF |
MODE = VISOOUT | VDD = 5 V | RE = GND1 |
LOAD = 54 Ω || 50pF |
MODE = VISOOUT | VDD = 5 V | DE = VIO |
LOAD = 54 Ω || 50pF | TA = 25°C |
MODE = VISOOUT | VDD = 5 V | RE = GND1 |
LOAD = 54 Ω || 50pF | TA = 25°C |
MODE = GND2 | VDD = 3.3 V | DE = VIO |
LOAD = 54 Ω | TA = 25°C |
RE = GND1 | Load = 54 Ω | TA = 25°C |
RE = GND1 | LOAD = 54 Ω | TA = 25°C |
For PWD ≤±5% | TA = 25°C |
MODE = GND2 | D = VIO | DE = VIO |
RE = GND1 | TA = 25°C | LOAD = 54 Ω || 50pF |
MODE = GND2 | VDD = 3.3 V | RE = GND1 |
TA = 25°C | DE = VIO |
MODE = GND2 | VDD = 3.3 V | RE = GND1 |
TA = 25°C | DE = VIO |
MODE = GND2 | VDD = 3.3 V | RE = GND1 |
DE = VIO |
MODE = GND2 | VDD = 3.3 V | RE = GND1 |
DE = VIO |
MODE = GND2 | VDD = 3.3 V | DE = VIO |
LOAD = 54 Ω || 50pF |
MODE = VISOOUT | VDD = 5 V | DE = VIO |
DE = VIO |
MODE = GND2 | VDD = 3.3 V | RE = GND1 |
LOAD = 54 Ω || 50pF |
MODE = VISOOUT | VDD = 5 V | RE = GND1 |
LOAD = 54 Ω || 50pF |
MODE = GND2 | VDD = 3.3 V | DE = VIO |
LOAD = 54 Ω || 50pF | TA = 25°C |
MODE = GND2 | VDD = 3.3 V | RE = GND1 |
LOAD = 54 Ω || 50pF | TA = 25°C |
MODE = VISOOUT | VDD = 5 V | DE = VIO |
LOAD = 54 Ω | TA = 25°C |
RE = GND1 | LOAD = -2 mA (RS485 Mode), -4mA (Profibus Mode) |
RE = GND1 | LOAD = 2 mA (RS485 Mode), 4mA (Profibus Mode) |
For PWD ≤±5% | TA = 25°C |
MODE = VISOOUT | D = VIO | DE = VIO |
TA = 25°C | LOAD = 54 Ω || 50pF |