I would like to know the differences, pros and cons of using
PNP, diode, and diode-connected transistor in the bandgap reference design in CMOS technology.

Most of the designs in papers are using PNP in CMOS technology. However, it is not properly characterized and low beta. Furthermore, it is not in design kits. In the design kits, it has diode. It is possible that I use diode instead of PNP. Since they behavior the same (pn junction).

could I use diode-connected transistor since it is well modeled in library.

In the library, it has only diode model. I could make it as PNP by putting a guard ring. Just worry about the accuracy of  doing that.

Are you sure that the diode is not allowed to use in forward mode due to poor modeling. I am not aware of this. Need to check..

thx for reminding me

well! if your design kit has no PNP, then you will have to go with the diode. There's no other choice of course. But you need to be very careful when using the diode. You need to ensure that you will no be triggering any other parasitic diodes in the substrate etc. else you will have a nice latchup.

I am guessing that you will be using a Pdiffusion-Nwell diode, with the Nwell tied to ground. Make sure you place a large number of contacts all around the periphery in the Nwell, and also substrate contacts all around the Nwell to firmly anchor everything to ground. Plus avoid placing other transistors nearby in the layout, especially PMOS.

Most importantly, talk to someone experienced about the whole thing and get the layout reviewed well.

Vivek

There usually isn't a true PN diode available, but if there is a PN diode will be a lot different than a pnp. The diode is "like" a pnp with a beta of 1, therefore you get the full current going across the base resistance. The IR drop across this resistance is a big limiting factor in BG design -- it is hard to control.

That said, the "diode" is probably some sort of parasitic pnp.