Part Number: SN74GTL2014 Hi,
I used GTL2014 and AXC8T845 from both direction level translator on adaptor board.
IO from silicon to port B of GTL2014 (vref 0.5V) with 71.5ohm PU resistor to 0.91V , port A (3.3V) of GTL2014 direct connect to port A (1.2V…
Part Number: SN74GTL2014 Phenomenon: When using material GTL2014, signal quality issues and reflections were found, which could not be resolved by adjusting the termination resistors. We tried to fit the simulation results, but they did not match the…
Part Number: SN74GTL2014 Other Parts Discussed in Thread: SN74AXC8T245 Hi,
What would happen if leave open one of channel B of SN74GTL2014 ?
Any leakage would happen ? Any prevention to be taken ?
Part Number: SN74GTL2014 Hi,
Could you let us know Vol(max) value of the SN74GTL2014 B port output(*1), when using iol=10mA(Vcc=3V).
On the datasheet, there is only a description of Vol(max) 0.4V, when the test condition is Iol=40mA(Vcc=3V).
*1:Connect…
Part Number: SN74GTL2014 hi TI,
I am Quanta EE, about SN74GTL2014PWR we want to know why there is no jitter on A-port when VCC=high, VREF=0, DIR=Low (from B to A)? may I ask how to prevent this problem?
because we can see jitter on another vender's GTL2014…
Part Number: SN74GTL2014 Hi,
Just want to double check, is SN74GTL2014 output A and output B all open drain? i've seen one sentence goes like this in the datasheet:
"The GTL Input/Output Operate up to 3.6 V, 3 Description Allowing the Device to be…
Part Number: SN74GTL2014 Hi team,
My customer is using the SN74GTL2014 now, both from TI and NXP, when they do the test, they find our sink and source current ability is much better than NXP. So our device positive and negative ringing is larger than NXP as below…