Hoping to get some help on the following example problem:
Base address + 2 (write only): Port C direction control register
7 6 5 4 3 2 1 0 DIR7 DIR6 DIR5 DIR4 DIR3 DIR2 DIR1 DIR0
Each bit in this register controls the direction of the same-numbered bit in DIO port C. A
0 means input, and a
1 means output. When the board is powered up or reset, this register is set to all 0, setting all bits to input mode. Read operations can be executed immediately. To use a bit for output, the bit direction must first be set with this register.
Base address + 6 (read/write): Port C data register
7 6 5 4 3 2 1 0 C7 C6 C5 C4 C3 C2 C1 C0
This address actually contains two registers, an output register and an input register. In input mode, the data on the I/O pins for port C can be read back in the input register. In output mode, the data in the output register controls the value of the output pins on port C. The value of each I/O pin matches the value in the same-numbered bit in this register (i.e. 0 = I/O pin is low, 1 = I/O pin is high).
When the board is powered up or reset, the output register is set to all 0, and the input register will still reflect the actual values on the I/O pins.
Here is pseudocode to control these registers:
Write (address,data); Write operation Data = Read(address); Read operation
Using the pseudocode functions above, provide the sequence of instructions for a board whose base address is 0x300 to implement the following digital output sequence:
Step Bit C0 Bit C1 1 0 0 2 1 0 3 1 1 4 0 0