Part Number: SN74LVC1G11 Hi Team,
I want to confirm this SN74LVC1G11 circuitry (attached), whether we can feed input grater than 1.8V supply voltage. My expectation is output high will be 1.8V logic.
As per datasheet we can provide 6.5V input, and supply…
Part Number: SN74LVC1G11 Other Parts Discussed in Thread: SN74LVC1G08 I am looking for a design where I can connect 2 safety signals to 1 safety input on a MCU.
Voltage levels are 3V3. When either one of the safety signals drops to 0V/floating, the MCU…
Part Number: SN74LVC1G11 Other Parts Discussed in Thread: SN74AHC1G09 , SN74HCS09 My circuit is part of a safety system. When ESTOP_1_IN and ESTOP_2_IN are both high, ESTOP_OUT should be high as well, basic AND-gate functionality.
In order to reduce risks…
Part Number: SN74LVC1G11 Other Parts Discussed in Thread: SN74AUP2G08 , SN74LVC2G08 , Hi
We are using SN74LVC1G11DRYR in our design. Kindly suggest a equivalent alternate part for this.
Part Number: SN74LVC1G11-Q1 Hİ,
I'm using SN74LVC1G11IDCKRQ1 logic gate for my design. And I want to do FMEDA analysis for functional safety. So, I need some information such as failure mode distribution, FIT rate etc.. Could you please help me about…
Part Number: SN74LVC1G11 Hi Team,
What if the input voltage is higher than the supply voltage? For example, Vcc=1.8V, Supply1(Supply2, Supply3)=3.3V.
Is there any security risk in this use? What is the current size of the pin? Because I don't know the…
Part Number: SN74LVC1G11 Hi sir,
This is Bhuvaneswari from Zettaone Technology,
I need to know few details for the part SN74LVC1G11DCKRG4
Parts are currently active in the website, may i know how long it will be in production? Is there any EOL issued for…
Part Number: SN74LVC1G11 Hi,
Currently SN74LVC1G11DRYR part is active, may I know how long it will be supported?
Is there any for EOL?
Can you suggest me few alternates for this part?
Part Number: SN74LVC1G11-EP Hi Team,
I am looking to use the SN74LVC1G11-EP as a driver for a PWM DAC and am wondering if there is any additional info on the voltage drop and rise above ground when the part is sourcing and sinking current respectively…