I am reading a C book, and there is a text the author mentioned:
"if ch (a char variable) is a signed type, then storing 255 in the ch variable gives it the value 1
".
Can anyone elaborate on that?

Assuming 8bit However, most implementations simply store the bitpattern, which for 255 is If either of the two assumptions (signedness and 8bit ¹ The standard guarantees that 


That is not guaranteed behavior. To quote ANSI/ISO/IEC 9899:1999 §6.3.1.3 (converting between signed and unsigned integers) clause 3:
I'll leave the bitwise/2's complement explanations to the other answers, but standardscompliant 


That's how two's complement works. Read all about it here. 


Try it in decimal. Suppose we can only have 3 digits. So our unsigned range is 0  999. Let's see if 999 can actually behave as 1 (signed):
Because we can only have 3 digits, we drop the highest order digit (the carry):
This is a general rule that applies to any number base. 


You have classical explanation in others messages. I give you a rule:
For this concrete question, assuming size of char is 8 bits length (1 bytes), 255 to binary is equal to:
For unsigned char, you get 255, but if you are dealing with char (same as signed char), MSB represents a negative magnitude:


