Part Number: SN74LVC07A Hi
Want to confirm whether there is a Tc temperature? Because this Spec only has Ta, and both are only 85 degrees Celsius, the Tcase of the customer's new project is very high regardless of whether it is a wide temperature or a…
Part Number: SN74LVC07A Dear sir,
would you please confirm whether there is the positive clamp diode of OUTPUT pin inside?
From SN74LVC07 datasheet, on page 5, 6.1 Absolute Maximum Ratings, it says that the Vo is limited to 6.5V, but the IOK just list…
Part Number: TXB0104 Other Parts Discussed in Thread: SN74LVC07A Dear TI.
Circuit design using Level Transceiver (TXB0104RGY) and Open-drain (SN74LVC07A) chip.
Communication is not available. Please comment after reviewing the design below.
Is it a problem…
Part Number: SN74LVC07A Hi Team,
If I use the SN74LVC07A with VCC=3.3V and VIH =5V. Is this OK for my design? if not, why?
Secondly, With VCC=3.3V and VIH =5V ,then the output is HZ?
Part Number: SN74LVC07A 1. In the d/s, it says that it can produce 24mAof drive current at 3.3V It means 24mA is max. driving current? And how to control the driving current lower than 24mA in application?
2. In the 9.2.1 Design Requirements, what is…
Part Number: SN74LVC07A Other Parts Discussed in Thread: SN74LVC1G34 We have used the SN74LVC07A in our design. Out of 6 gate one of the gate used for 8mhz clock signal, but we are not getting proper output from SN74LVC07A.
So please help us for resolve…
Part Number: SN74LVC07A Other Parts Discussed in Thread: SN74LVC1G07 , SN74AHCT125 , SN74LVC2G34 Hi Team,
We are using SN74LVC07A and configure as SPI level shift, schematic shows as below. VCC is 3.3V and using 5V pull up power at output side.
Part Number: SN74LVC07A-Q1 Hi Expert,
I find there are two different part number for SN74LVC07-Q1. Customer is using SN74LVC07AQPWRG4Q1. They need a few sample for new project. But i just can request SN74LVC07AQPWRQ1. What's the different for those two…
Part Number: SN74LVC07A
My customer is using SN74LVC07A, they put the capcitor in the input of the Buffer, and cause the larger transition time, about 100ns/V.
But in app notes https://www.ti.com/lit/an/scba004d/scba004d.pdf?ts=1592392365220 writes that…