Part Number: DRV8714-Q1 Hi team,
Our DRV8714-Q1 internal CSA cannot meet customer application requirements, do we have any guidance how to calibrate the CSA and any calculator for CSA accuracy?
Also could you please help share any design guidance for…
Part Number: DRV8714-Q1 Hi TI
I use DRV8714 in my design, when open load, I put sleep high, then set registers.
I test SO1 & SO2's voltage, Vso1=3.4V,Vso2=2.2V, it make me confused.
My question is
1. why Vso1 and Vso2 has too much diff?
2. when…
Part Number: DRV8714-Q1 Hi Team,
The DRV8714 SPI clock should be 16bit. While we sent 32bit clock in one nSCS, will this trigger the SPI clock fault?
During the test we didn't received the SPI clock fault indication.
May I know what is the definition…
Part Number: DRV8714-Q1 Hi Team,
DRV8714-Q1 Pin 3~6 in figure 6-5/6 shows below.
On the other hands, its table 6-3 shows below.
which one is correct?
Regards,
Kai
Part Number: DRV8714-Q1 Hi team,
When I want to calculate the temperature drift, can I regard as the D_OFF is constant against temperature? I'd like to double check if following formula image is correct.
V_OFF+V_OFF_D*(Temp-25)
Best regards,
Sho…
Part Number: DRV8714-Q1 I think that operation is guaranteed for DVDD voltage between 3V and 5.5V.
I also think that DVDD will POR between 2.5V and 2.9V.
If the POR threshold voltage of the DVDD voltage is 2.5V, please tell me the IC state when the DVDD…
Part Number: DRV8714-Q1 Hi,
I am working with a customer trying to make use of inline current sensing amplifier inside DRV8714 for continuous current sensing. The GBW specification of the shunt amplifier was not available in the datasheet. Please can you…
Part Number: DRV8714-Q1 Other Parts Discussed in Thread: DRV8714S-Q1EVM Please tell me the voltage that can be applied to nSCS under the following conditions.
PVDD=12V DVDD=OPEN nSLEEP=Lo
From the perspective of the SPI communication line, I think that nSCS…
Part Number: DRV8714-Q1 Hi team
Please tell me the input and output capacitors for the following terminals.
The purpose is to calculate the waveform delay when a resistor is placed on the signal line.
DRVOFF_NFLT NSLEEP IN1_EN1 NSCS SCLK SDI SDO
Best Regards…