Other Parts Discussed in Thread: TXG8041
FAQ: Logic and Voltage Translation > Ground-Level Translators >> Current FAQ
A negative signal can be generated from ground-level translators as long as the user’s system has a negative supply rail. To prevent…
Part Number: TXG1041 Other Parts Discussed in Thread: TXG8041 , Tool/software: We require the IBIS model for the TXG1041DBQR component to perform signal integrity simulations for our high-speed circuit board. Additionally, we would like to request the…
FAQ: Logic and Voltage Translation > Ground-Level Translators >> Current FAQ
The TXG product family can be used as a regular level translator (VCCA > VCCB or VCCA < VCCB) or in a buffer configuration (VCCA = VCCB).
If a user doesn’t need ground shifting…
FAQ: Logic and Voltage Translation > Ground-Level Translators >> Current FAQ
The maximum trace length that ground-level translators (as well as logic devices) can drive is 60 mm. This is a safe trace length for most devices to drive across the majority…
FAQ: Logic and Voltage Translation > Ground-Level Translators >> Current FAQ
To use the ground shift capability, voltage supplies need to be separated and fall within the recommended operating conditions.
Let’s use the figure above as an example…
FAQ: Logic and Voltage Translation > > Current FAQ
[FAQ] What are the differences between Ground-Level Translators and Digital Isolators?
[FAQ] Can I generate a negative PWM signal from a positive PWM signal?
[FAQ] Is DC ground shifting possible…
FAQ: Logic and Voltage Translation > Ground-Level Translators >> Current FAQ
Ground-Level Translators
Digital Isolators
GNDA to GNDB Difference
80V
3kVrms
Galvanic Barrier
No
Yes
GNDA to GNDB Leakage (VCC to GND…
