Pinout

Pin No.	Name	Type	Comment
24	VCC	PWR	5V supply
12	GND	PWR	Ground supply
5–1	D4–D0	I	Data Bus
11	RD	I	Low-Active Read Enable
22	WR	I	Low-Active Write Enable
23	CS	I	Low-Active Chip Select
10	RESET	I	Low-Active Asynchronous Reset
21–19	A15–A13	I	Address Bus
18–14	RA18–RA14	O	Upper ROM Address Lines
7–6	AA14–AA13	O	Upper ROM/RAM Address Lines
8	RAM_CS	O	Low-Active RAM Chip Select
9	RAM_CS	O	High-Active RAM Chip Select
13	ROM_CS	O	Low-Active ROM Chip Select

Footprint: SOP127P1200X225-24

Registers

Write-Accessible Registers:

0x0000-0x1FFF: RAM Enable register
0x2000-0x3FFF: ROM Bank register
0x4000-0x5FFF: RAM Bank register
0x6000-0x7FFF: Mode register

RAM Enable Register

XX XX XX XX D3 D2 D1 D0    0x00 @ reset
            \_________/
                 \-------- RAM Enable

A value of 0x0A enables SRAM access, all other values disable SRAM access.

ROM Bank Register

XX XX XX D4 D3 D2 D1 D0    0x00 @ reset
         \____________/
                 \-------- ROM Bank

ROM Bank selects which bank is mapped to 0x4000-0x7FFF. The written value is zero-adjusted before output on RA18–RA14.

RAM Bank Register

XX XX XX XX XX XX D1 D0    0x00 @ reset
                  \___/
                    \----- RAM Bank

RAM Bank selects which bank is mapped to 0xA000-0xBFFF when in mode 4 MBit/256 kbit. When in mode 16 Mbit/64 kbit, it can be used to select the upper two ROM address lines.

Mode Register

XX XX XX XX XX XX XX D0    0x00 @ reset
                      |
                      \--- Mode

The mode bit switches between 16 Mbit ROM/64 kbit SRAM mode ('0') and 4 Mbit ROM/256 kbit SRAM mode ('1'). When in 16 Mbit/64 kbit mode, address lines AA14–AA13 switch according to A14. When in 4 Mbit/256 kbit mode, the upper address lines AA14–AA13 stay fixed regardless of A14.

Behavior

library IEEE;
use IEEE.std_logic_1164.all;

entity MBC1 is
	Port(
		RESET_N  : in  std_logic;
		RD_N     : in  std_logic;
		WR_N     : in  std_logic;
		CS_N     : in  std_logic;
		A        : in  std_logic_vector(15 downto 13);
		D        : in  std_logic_vector(4 downto 0);
		RA       : out std_logic_vector(18 downto 14);
		AA       : out std_logic_vector(14 downto 13);
		ROM_CS_N : out std_logic;
		RAM_CS_N : out std_logic;
		RAM_CS   : out std_logic
	);
end entity MBC1;

architecture Behavioral of MBC1 is
	
signal ram_enable_r : std_logic_vector(3 downto 0);
signal rom_bank_r   : std_logic_vector(4 downto 0);
signal ram_bank_r   : std_logic_vector(1 downto 0);
signal mode_r       : std_logic_vector(0 downto 0);

signal ram_enable_r_clk : std_logic;
signal rom_bank_r_clk   : std_logic;
signal ram_bank_r_clk   : std_logic;
signal mode_r_clk       : std_logic;

begin

-----------------------------------------------------------------------
-- Signal Assignments
-----------------------------------------------------------------------

ROM_CS_N <= '0' when ((A(15) = '0' and RD_N = '0') or RESET_N = '0') else
            '1';

RAM_CS_N <= '0' when (CS_N = '0' and A(14) = '0' and ram_enable_r = x"A") else
            '1';
RAM_CS <= not RAM_CS_N;

RA(18 downto 14) <= "00000"    when (A(14) = '0' or RESET_N = '0') else
                    rom_bank_r when (rom_bank_r /= "00000") else
                    "00001";

AA(14 downto 13) <= "00" when (A(14) = '0' and mode_r = "0") else
                    ram_bank_r;

ram_enable_r_clk <= '0' when (A = "000" and WR_N = '0') else
                    '1';

rom_bank_r_clk <= '0' when (A = "001" and WR_N = '0') else
                  '1';

ram_bank_r_clk <= '0' when (A = "010" and WR_N = '0') else
                  '1';

mode_r_clk <= '0' when (A = "011" and WR_N = '0') else
              '1';

-----------------------------------------------------------------------
-- Registers
-----------------------------------------------------------------------

ram_enable_p : process (
	RESET_N,
	ram_enable_r_clk
	)
begin

	if (RESET_N = '0') then
	
		ram_enable_r <= x"0";
	
	elsif (rising_edge(ram_enable_r_clk)) then
	
		ram_enable_r <= D(3 downto 0);
	
	end if;

end process ram_enable_p;

rom_bank_p : process (
	RESET_N,
	rom_bank_r_clk
	)
begin

	if (RESET_N = '0') then
	
		rom_bank_r <= "00000";
	
	elsif (rising_edge(rom_bank_r_clk)) then
	
		rom_bank_r <= D;
	
	end if;
	
end process rom_bank_p;

ram_bank_p : process (
	RESET_N,
	ram_bank_r_clk
	)
begin

	if (RESET_N = '0') then
	
		ram_bank_r <= "00";
	
	elsif (rising_edge(ram_bank_r_clk)) then
	
		ram_bank_r <= D(1 downto 0);
	
	end if;
	
end process ram_bank_p;

mode_p : process (
	RESET_N,
	mode_r_clk
	)
begin

	if (RESET_N = '0') then
	
		mode_r <= "0";
	
	elsif (rising_edge(mode_r_clk)) then
	
		mode_r <= D(0 downto 0);
	
	end if;

end process mode_p;

end architecture Behavioral;

MBC1

Contents

Pinout

Registers

RAM Enable Register

ROM Bank Register

RAM Bank Register

Mode Register

Behavior

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