Part Number: TPL0501-100 Other Parts Discussed in Thread: SN74ALVC16244A , Hi team,
In my schematic , i used the TPL0501-100 pot with 5V on the VDD pin and the SPI signals are interfacing with a buffer(SN74ALVC16244A) of 3.3V on the VCC pin .So can i able…
Part Number: TPL0501-100 Hello,
Can be used the digipot TPL0501-100 for negative voltage? If so, could you provide some application notes?
Thanks,
Alex
Part Number: TPL0501-100 Hello,
My customer has an issue below with the TPL0501-100.
- It is designed to control the buzzer sound as follows.
- When the minimum volume of the buzzer is set, the buzzer sound is momentarily cut off(If the buzzer continues…
Part Number: TPL0501-100 Hello,
The Revision B changes below described in the datasheet are comprehensive, making it difficult to know what has changed. Can you give us some specifics on what the Revision B changes are?
Thank you.
JH
Part Number: TPL0501-100 Hi,
I have a circuit which I will be using this digipot to control the bandwidth of an integrator in which I will be using the TPL0501 in the rheostat mode where it is connected between my input signal and the inverting input…
Part Number: TPL0501-100 Hi Team,
In one of our application we are using TPL0501. we observe a clock output with no configuration done on the digi-pot. The Digi-pot connections are H pin to GND, powered ON with 5V DC, all spi signals high. 2.447MHz triangle…
Part Number: TPL0501-100 Hi Sir,
the currently schematic is HA/LA/WA 3 pin are all floating, but measuring the impedance between HA and WA pin always is 99k Ohm, when i command 0x03. what's the problem? different command 0x60 will also get 99k ohm.…
Part Number: TPL0501-100 Hello team,
Could you please help us to address the DPOT setting issue?
The output doesn't look linearly changes.
In my use case, SCLK = 5MHz and DPOT value is sequentially updated in 200kHz frequency.
In the wrong setting…
Part Number: TPL0501-100 Hello,
The absolute resistance tolerance is +/-20%. In the data sheet above table 2, there is a line that says "The absolute values of resistance can vary significantly but the Ratio (RWL/RHW) is extremely accurate."…