NO! Jitter does not always matter.


I see a lot of discussion of jitter on this forum. A lot of it makes sense. However, I think a huge advancement in DAC chips about 13-14 years old was missed. Some people noticed that a big change in lower cost DACs occurred about aa decade ago, but probably do not know why.

Almost all modern DACs are multi-bit sigma-delta based implementation. They are not 1-bit. They have a multi-bit DAC with a sigma-delta based modulator.

Prior to the mid-late 2000's, the multi-bit DACs were based on effectively resistor ladders. So effectively a 3-4 bit resistor ladder DAC fed by a sigma-delta modulator. As it was resistor based, the amount of energy transferred was a function of both the DAC value, and also the timing, i.e how long each resistor was turned on.

Starting in the mid-late 2000's, audio DACs started to be made with switched capacitor DACs. A bank of capacitors replaced the resistors in the above DACs.  The capacitors would be charged, and depending on the digital value from the sigma delta modulator, the charge would be transferred to the output.  BIG CHANGE!  -- With resistors, the amount of energy transferred was a function of the DAC value, and time.  With switched capacitors, the energy transferred was now only a factor of the DAC value. Time was effectively removed from the equation.

Where a resistor based mutli-bit sigma-delta DAC or worse single bit sigma-delta DAC would drop to 70-80db dynamic range with 1nsec jitter, switched capacitor DACs could maintain 100, 105, even 120db of dynamic range.

I know it is inconceivable to many audiophiles that a relatively low cost DAC could compete with a megabuck DAC, especially when a lot of that money goes into jitter control, but that is what technology can do.

https://www.electronicproducts.com/understanding-clock-jitter/#
sugabooger
In terms of your back patting yourself about video, I will say one thing before you embarrass yourself. I spent several years managing advanced engineering at Barco. I am sure you have heard of them. I am quite certain that what is being put together even in low cost models for DLP today, far exceeds what you were doing in 2006. The advances in the base engine far exceed what was possible in 2006, not to mention the electronics were for the most part fully integrated in the TI engine, and all the magic was buried in custom ASICs for volume products, or massive FPGAs for lower volume vendors such as us. You may want to take pause before typing more.

Actually NO.
If you don’t know who Barco is, then claiming best ever for any projector is an embarrassing statement. Those CRT projectors you love. I was leading the team making what many believe we’re the best CRT projectors ever made. I was also leading the development as we moved into DLP. I think Barco has still outsold Christie (formerly Electrohome) in DLP theater projectors though they make a fine and successful product. They always kept us on our toes. My former colleagues are moving towards laser based systems now.
Tomcy,


This forced other manufacturers to compete with other technologies. Async sample rate conversion was put on chip at low cost (ESS), cypress came up with another switched cap implementation. Pulse timed as opposed to purely input timed resistor implementations also came out to do the same thing. The newest chips treated well, which does not cost much money and just takes competent design (or iterative with testing), are pretty amazing. Discrete designs are expensive as they have to compete with modern high density semiconductor mfg with discrete parts. Just the large size makes it harder.