Part Number: SN74AVC4T774 Hello,
Does anyone know if TI will pre-sort chips before shipping?
For example, we are buying SN74AVC4T774 for use in a product and we want parts with the
faster propagation delays. If we get parts that are on the slower end…
Part Number: SN74AVC4T774 Tool/software: Hello
We have such a issue. LDAC signals have a lot of clutter signals during each cold boot from -5℃ before FPGA loading complete . It will cause the DAC work abnormal.
LDAC is always high at room temperature…
Part Number: SN74AVC4T774 Tool/software: There is a statement in the datasheet: If the inputs are not driven to either a high VCC state, or a low-GND state, an undesirable larger than expected ICC current may result。
I want to know which pin will result…
Part Number: SN74AVC4T774 Tool/software: What is the maximum operating junction temperature of the SN74AVC4T774RSVR? Datasheet says 150 C, can you confirm and highlight desired normal operation and damage concerns?
Thanks,
Arash
Part Number: SN74AVC4T774 Tool/software: Datasheet shows absolute max of +/- 50 mA for continuous output current.
Is this per pin or per package?
In other words, Can I safely sink 33 mA each on output 2B1 and 2B2 for a total current sink of 66 mA?
…
Part Number: SN74AVC4T774 Tool/software: We want to know max drive capacitive load capability for level shifter.
Can anyone help provide max capacitive load capability ? thanks
Part Number: SN74AVC4T774 Hello TI,
While referring to SN74AVC4T774RSVR datasheet for Rise and Fall time values, the data sheet shows value in "ns/V".
"Δt/Δv : Input transition rise or fall rate : 5 : ns/V"
This is in contradiction…
Part Number: SN74AVC4T774 Other Parts Discussed in Thread: TXU0304 , SN74AXC4T774 Hi Team,
We are using "SN74AVC4T774PWR" level translator in our project. We want our circuit should be always enable, so we connected #OE pin to ground through 10K ohm resistor…
Hi Ashvin,
The pull-downs are for the I/Os, preventing them from floating.
For the specification when VCC supplies are turned on, please see 5.5 of the data sheet for ICCA + ICCB max for up to 40 uA max.
I presume, you are powering up the device and…
Part Number: SN74AVC4T774 Other Parts Discussed in Thread: SN74AXC4T774
Hi Sirs;
I need help for SN74AVC4T774RSV.
目前这个器件A port 是3.3V, B port是1.8V,但在使用过程中3.3V会比1.8V早上电。
当3.3V已经上电 1.8V 上电过程中,B2 信号会被传送到A2嘛?
我有做一个实验,在B2给了一个1.8V + 10k的上拉,同时捕获A2 和B2 的信号进行对比…