TMUX9832: The datasheet for TMUX9832

Zhang Liang

Part Number: TMUX9832

Hi,

We request the detail datasheet from TI website but there are no reply, so please kinldy provide the datasheet to us to evaluate, thanks.

over 1 year ago

0 Rami Mooti1 over 1 year ago

TI__Mastermind 35648 points

Hey Zhang,

Sorry for the wait. You should have access now!

Thanks,
Rami

0 Zhang Liang over 1 year ago in reply to Rami Mooti1

Genius 4335 points

Hi Rami,

Thanks for your kinldy support.

BTW, we need to 3dB Bandwidth more than 400MHz, is there any other MUX device promoted, thanks?

0 Rami Mooti1 over 1 year ago in reply to Zhang Liang

TI__Mastermind 35648 points

Hey Zhang,

Do you mean something exactly like the 9832 that can support 400MHz?
Can you share more on the use case here? Will a simply 1:1 lower voltage switch work or does it need to be a high voltage 32 channel 1:1 switch?

-Rami

0 Zhang Liang over 1 year ago in reply to Rami Mooti1

Genius 4335 points

Hi,

We are use the MUX in the ATE FPGA and DC signal selection, and we need the -3dD Bandwidth more than 400MHz for each channel, the voltage is about 15V is enough, so plesae kindly promote the MUX device if there are any newest to promote?

BTW, we want to know if we can set the register to get the each channel state?

0 Rami Mooti1 over 1 year ago in reply to Zhang Liang

TI__Mastermind 35648 points

Hey zhang,

This is the list of device I was able to narrow it down that are 1:1 switches and support 15V and 400MHz:

https://www.ti.com/switches-multiplexers/analog/products.html#1143=1%3A1%20SPST&1611=400%3B6500&3306=16%3B20%3B24&

Note there won't be anything that can support 32 channels on a single channel like the 9832

Zhang Liang said:
BTW, we want to know if we can set the register to get the each channel state?

Not exactly sure what you mean by this. But the 9832 doesn't have memory with how it sounds like you're expecting it. The datasheet explains how the channel states work but it's a shift register. So you'll be able to load the shift register with data that will be latched in the shift register. When the data is pushed through (with the LE pin) the states of the mux will be set.
Otherwise, most of our other muxes will be GPIO controlled so the states will be strictly determined by the current state of the GPIO pins.

Thanks,
Rami

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TMUX9832: The datasheet for TMUX9832