Part Number: MSP430F6726A Hi,
My customers want to change the register of 2.0kΩ in R12 because increase noise immunity.
www.tij.co.jp/.../slaa932.pdf
For example, can we use 100Ω?
Regards,
Rei
Part Number: MSP430F6726A Hi,
I don't understand the operation when SDCAL = 1 in SD24_B. If you have any material that explains what this calibration function is and how to use it, please let me know where it is.
Best Regards,
Part Number: MSP430F6726A Hi,
I would like to ask about the frequency setting of fsd24 in SD24_B.
Let fsd24sclk be 8MHz.
When the SD24BCTL0 register setting remains the default,
that is, when both SD24DIVx and SD24PDIVx are 0h,
the frequency of fsd24…
Part Number: MSP430F6726A Hi,
I have questions about SD24_B of MSP430F6726A.
The differential-input of SD24 becomes inaccurate when the input voltage is above |600mV|. Even if I use a stabilized power supply and input the same voltage, the lower 8bits…
Part Number: MSP430F6726A Hi,
My customer s are testing ESD on their board using MSP430F6726A. We have seen the following document.
■MSP430 System ESD Troubleshooting Guide
3.3 Hardware Troubleshooting Guidelines
F igure 2. Recommended SBW Circuit for MSP430…
Part Number: MSP430F6726A Hi,
The characteristics shown in Fig. 5-19 are shown on page 69 of the data sheet.
Is it okay to understand that they have fin = 12Hz?
Under the conditions shown in Fig. 5-19, is it okay to understand that around up to fin =…
Part Number: MSP430F6726A Hi,
The current consumption when SMCLK = 1MHz is described in section 5.5 of the data sheet P37.
How much will the current consumption increase when SMCLK = 8MHz or 2MHz at VCC = 3V?
Best regards,
Hi, if you keep XT1DRIVE = 3 as default, (Maximum drive capability and maximum current consumption for XT1 LF mode. XT1 oscillator operating range in HF modeis 24 MHz to 32 MHz). according to DS, TYP current is 0.29uA at 3V at XT1DRIVE = 3.
Part Number: MSP430F6726A Hi,
When the internal reference power supply is selected and the gain is set to PGA = 1, Is the full scale level at the time of differential input correct with the understanding of 1.84Vp-p?
In other words, is the + side converted…