Using std::vector and std::string will usually save you headaches once you understand them. Since you are brand new to C++, it might be useful to understand what is going on with two-dimensional arrays anyhow.
When you say
With N and M being constants, not variables, you are telling the compiler to allocate N*M items of type char. There will be a block of memory dedicated to that array of size N*M*sizeof(char). (You can declare an array of anything, not just char. Since sizeof(char) is 1, the memory will be N*M bytes long.) If you looked at raw memory, the first byte in the memory would be where array is. The second byte would be where array is, an so on, for M bytes. Then you would see array. This is called row-major order.
As @jbat100 mentioned, when you say array[i][j] you are referring to a single character. When you say array[i], you are referring to the address of row i in the array. There is no pointer actually stored in memory, but when you say array[i] the compiler knows that you mean that you want the address of row i in the array:
char* row_i = array[i];
Now if i>0, then row_i points to somewhere in the middle of that block of memory dedicated to the array. This would do the same thing:
char* row_i = &array[i];
If you have a string, "orange" and you know that the length of it is less than M, you can store it in a given row in the array, like this:
strcpy(array[i], "orange"); // or
array[i] = 'o'; array[i] = 'a'; ... array[i] = 0;
Or you could have said row_i instead of array[i]. This copies 7 bytes into the array in the location of row_i. The strcpy() also copies an extra byte which is a 0, and this is the convention for terminating a character string in C and C++. So the 7 bytes are six bytes, 'o', 'r', 'a', 'n', 'g', and 'e', plus a 0 byte. Now strcmp(row_i, "orange") == 0.
Beware that if your string is longer than M, the strcpy and the simple char assignments will not (probably) produce a compile error, but you will end up copying part of your string into the next row.
Read about pointers and arrays in a good C/C++ book.