Part Number: TS5A3159-Q1 Hello,
I am designing in the TSA5A3159-Q1.
The question is related to the corner frequency and BW of TSA5A3159 . The typical value is 100Mhz .
I would like to understand the minimum value over the full temperature range .
The…
Hi Team, I believe IN pin is CMOS input. Is my understanding correct? My customer wants to know which is connected COM to NO or NC if IN pin is open(Hi-Z). Best Regards, Yaita / Japan disty
Other Parts Discussed in Thread: TS5A3159-Q1 Hi Team
to sell TS5A3159-Q1, customer want to check whether the Abs Max Spec are all met as described in D/S.
I am not sure what it is; [1] Ii/OK = Analog port diode current[mA], and [2] Iik = Digital input…
Other Parts Discussed in Thread: TS5A3159-Q1 Hi
We have two question about TS5A3159-Q1.
Requirement: Vdd = 3.3v , BW = 10MHz_20MHz
1.
We couldn't find a description about impedance matching.
Don't we need impedance matching for use of TS5A3159-Q1…
Other Parts Discussed in Thread: TS5A3159-Q1 , TS5A3159-EP Hi,
Does anyone have the distribution data of the TS5A3159-Q1 NC/NO OFF leakage current spec?
Thanks
Go
Hi Prathik,
Please refer to our FAQ on how to determine maximum junction temperature for this device:
https://e2e.ti.com/support/switches-multiplexers-group/switches-multiplexers/f/switches-multiplexers-forum/1063078/faq-how-to-calculate-the-max-junction…
Hi Adam,
If that is the case, the TS5A3159-Q1 would be a good choice. Has very low RON (1ohm), is automotive qualified, and has a small footprint. In addition, it has bandwidth support up to 100MHz which is plenty for this application.
Thanks!
Bryan
Hi Michelle,
The device is available in catalog/automotive/Enhanced product category but has not gone through any special certification process.
We do not specify the operating RH for devices but we do provide the qualification information and conditions…
Part Number: SN3257-Q1 Other Parts Discussed in Thread: TS5A3159-Q1 , , TS5A23157-Q1 , SN74LVC157A-Q1 , SN74LVC1G3157-Q1 , SN74LVC1G97-Q1 Hi all,
My customer need switch IC that can cover 1% duty cycle at 200kHz , 2:1, 3.3v input and output.
I wonder whether…