Part Number: DAC60501 Other Parts Discussed in Thread: DAC80501 Dear Sirs
I am looking for a PSpice model for the DAC60501 device or anything to be adapted for.
Thanks and Best Reagrds
Salvatore
Part Number: DAC60501 Hello all,
I am asking for help since I am stuck with this problem. I am trying to configure a DAC via SPI, the configuration works but the output of the voltage has a maximum rating of 0.1558V instead of 1.25V at a given data with…
Part Number: DAC60501 Hello, I am using the DAC60501, Attach is the SPI signals where the power-up (VDD=3.3V) is the trigger hence the signal in yellow. I first tried to write the GAIN register and divide the reference by 2 (1.25V) and everything seems…
Part Number: DAC60501 Other Parts Discussed in Thread: DAC60502 Dear Sir / Madam,
For our project we want to implement the DAC60501 and we would like to power it from +5V.
Our I2C communication is on +3V3 logic level.
Where should I connect the SPI2C…
Part Number: DAC60501 Hi,
I have some questions for DAC60501Z register setup method.
If you look at the CONFIG Register at address 0x03h in the DAC60501 data sheet, registers 15~9 and 7~1 are reserved, and only 8 and 0 should be changed.
When actually…
Part Number: DAC60501 Hi team,
A question of the internal reference: If VREFIO pin is unused, how this pin should be connected? Left it floating or anything else?
BR Sirui
Part Number: DAC60501 Hi Expert,
Our customer use DAC60501 in their system.
They want to ask some questions,
1. SPI configuration: There is no direct description in the datasheet, I guess from the graphics: kLPSPI_ClockPolarityActiveLow; masterConfig…
Part Number: DAC60501 Hi team,
What is the definition of full-scale error?
Full-scale error is equal to gain error, right?
Bet regards,
Shunsuke Yamamoto
Part Number: DAC60501 This may have already been answered in a previous post ( https://e2e.ti.com/support/data-converters-group/data-converters/f/data-converters-forum/963866/dac80501-possible-output-voltage-with-3-3v-power-supply )
I'd like to confirm…
Part Number: DAC60501 Hi Team,
I have a question on the figures in datasheet. As captured below, the data indicates only down to VDD=3.9V when REF-DIV=0 and BUFF-GAIN=0. Could you explain why the minimum supply 3.9V comes into play here?
Basically, this…