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I'm trying out some code that essentially involves using an FPGA and reading values from a temperature sensor.

The code is below:

library IEEE;
use IEEE.STD_LOGIC_1164.ALL;
use IEEE.STD_LOGIC_ARITH.ALL;
use IEEE.STD_LOGIC_UNSIGNED.ALL;

---- Uncomment the following library declaration if instantiating
---- any Xilinx primitives in this code.
--library UNISIM;
--use UNISIM.VComponents.all;

entity ds18b20 is
    Port ( clk      : in  STD_LOGIC;        --50Mhz oscillator onboard
       dq       : inout  STD_LOGIC;
       temp_h : out  STD_LOGIC_VECTOR (7 downto 0);
       temp_l : out  STD_LOGIC_VECTOR (7 downto 0);
          temperature   : out STD_LOGIC_VECTOR (11 downto 0));
end ds18b20;

architecture Behavioral of ds18b20 is

--RESET  :  RESET AND PRESENCE PULSE
--CMD_CC :  SKIP ROM [CCh]
--WRITE_BYTE   :  WRITE SCRATCHPAD COMMAND
   --WRITE_LOW
   --WRITE_HIGH
--READ_BIT  :  

TYPE STATE_TYPE is     (RESET,CMD_CC,WRITE_BYTE,WRITE_LOW,WRITE_HIGH,READ_BIT,CMD_44,WAIT800MS,CMD_BE,GET_TMP,WAIT4MS); 
signal STATE: STATE_TYPE:=RESET; 

signal clk_temp : std_logic:='0'; 
signal clk1m : std_logic; 


signal write_temp : std_logic_vector(7 downto 0) := (others => '0'); 

signal TMP : std_logic_vector(11 downto 0); 
signal tmp_bit : std_logic; 

signal WRITE_BYTE_CNT : integer range 0 to 8:=0; 
signal WRITE_LOW_CNT : integer range 0 to 2:=0; 
signal WRITE_HIGH_CNT : integer range 0 to 2:=0; 
signal READ_BIT_CNT : integer range 0 to 3:=0; 
signal GET_TMP_CNT : integer range 0 to 12:=0; 

signal cnt : integer range 0 to 100001:=0; 
signal count : integer range 0 to 25:=0; 

signal WRITE_BYTE_FLAG : integer range 0 to 4:=0; 

begin 

ClkDivider: process (clk) 
            begin 
            if rising_edge(clk) then 
                if (count = 24) then 
                    count <= 0; 
                    clk_temp<= not clk_temp; 
                else 
                    count <= count +1; 
                end if; 
            end if;  
            clk1m<=clk_temp; 
            end Process; 


STATE_TRANSITION:   process(STATE,clk) 
                    begin 
                    if rising_edge(clk) then 
                        case STATE is 

                            --Master issues RESET pulse
                            when RESET=> 
                                if (cnt>=0 and cnt<500) then 
                                    dq<='0'; 
                                    cnt<=cnt+1; 
                                    STATE<=RESET;

                                --Master waits for PRESENCE pulse
                                elsif (cnt>=500 and cnt<1000) then 
                                    dq<='Z'; 
                                    cnt<=cnt+1; 
                                    STATE<=RESET; 
                                elsif (cnt>=1000) then 
                                    cnt<=0; 
                                    STATE<=CMD_CC;              -- SKIP ROM COMMAND STATE
                                end if; 

                            when CMD_CC=>                       -- SKIP ROM COMMAND
                                write_temp<="11001100";     -- SKIP ROM BINARY COMMAND
                                STATE<=WRITE_BYTE;             -- modified here

                            --Master issues write scratchpad command
                            when WRITE_BYTE=> 
                                case WRITE_BYTE_CNT is 
                                    when 0 to 7=> 
                                        if (write_temp(WRITE_BYTE_CNT)='0') then 
                                            STATE<=WRITE_LOW; 
                                        else 
                                            STATE<=WRITE_HIGH; 
                                        end if; 
                                            WRITE_BYTE_CNT<=WRITE_BYTE_CNT+1; 
                                    when 8=> 
                                        if (WRITE_BYTE_FLAG=0) then -- ????0XCC?? 
                                            STATE<=CMD_44;          --CONVERT TEMPERATURE
                                            WRITE_BYTE_FLAG<=1; 
                                        elsif (WRITE_BYTE_FLAG=1) then --?0X44?? 
                                            STATE<=RESET; 
                                            WRITE_BYTE_FLAG<=2; 
                                        elsif (WRITE_BYTE_FLAG=2) then --????0XCC?? 
                                            STATE<=CMD_BE;          -- READ SCRATCHPAD
                                            WRITE_BYTE_FLAG<=3; 
                                        elsif (WRITE_BYTE_FLAG=3) then --?0XBE?? 
                                            STATE<=GET_TMP; 
                                            WRITE_BYTE_FLAG<=0; 
                                        end if; 
                                        WRITE_BYTE_CNT<=0; 
                                end case; 

                                when WRITE_LOW=> 
                                    case WRITE_LOW_CNT is 
                                        when 0=> 
                                            dq<='0'; 
                                            if (cnt=78) then 
                                                cnt<=0; 
                                                WRITE_LOW_CNT<=1; 
                                            else 
                                                cnt<=cnt+1; 
                                            end if; 
                                        when 1=> 
                                            dq<='Z'; 
                                            if (cnt=2) then 
                                                cnt<=0; 
                                                WRITE_LOW_CNT<=2; 
                                            else 
                                                cnt<=cnt+1; 
                                            end if; 
                                        when 2=> 
                                            STATE<=WRITE_BYTE; 
                                            WRITE_LOW_CNT<=0; 
                                        when others=>WRITE_LOW_CNT<=0; 
                                    end case; 

                                    when WRITE_HIGH=> 
                                     case WRITE_HIGH_CNT is 
                                         when 0=> 
                                             dq<='0'; 
                                             if (cnt=8) then 
                                                 cnt<=0; 
                                                 WRITE_HIGH_CNT<=1; 
                                             else 
                                                 cnt<=cnt+1; 
                                             end if; 
                                         when 1=> 
                                             dq<='Z'; 
                                             if (cnt=72) then 
                                                 cnt<=0; 
                                                 WRITE_HIGH_CNT<=2; 
                                             else 
                                                 cnt<=cnt+1; 
                                             end if; 
                                         when 2=> 
                                             STATE<=WRITE_BYTE; 
                                             WRITE_HIGH_CNT<=0; 
                                         when others=>WRITE_HIGH_CNT<=0; 
                                    end case; 

                                    when READ_BIT=> 
                                        case READ_BIT_CNT is 
                                             when 0=> 
                                                 dq<='0'; 
                                                 if (cnt=4) then 
                                        READ_BIT_CNT<=1; 
                                        cnt<=0; 
                                                 else 
                                                     cnt<=cnt+1; 
                                                 end if; 
                                             when 1=> 
                                                 dq<='Z'; 
                                                 if (cnt=4) then 
                                                     READ_BIT_CNT<=2; 
                                                     cnt<=0; 
                                                 else 
                                                     cnt<=cnt+1; 
                                                 end if; 
                                             when 2=> 
                                                 TMP_BIT<=dq; 
                                                 if (cnt=1) then 
                                                     READ_BIT_CNT<=3; 
                                                     cnt<=0; 
                                                 else 
                                                     cnt<=cnt+1; 
                                                 end if; 
                                             when 3=> 
                                                 if (cnt=45) then 
                                                     cnt<=0; 
                                                     READ_BIT_CNT<=0; 
                                                     STATE<=GET_TMP; 
                                                 else 
                                                     cnt<=cnt+1; 
                                                 end if; 
                                             when others=>READ_BIT_CNT<=0; 
                                         end case; 

                                        when CMD_44=>                    -- CONVERT TEMPERATURE
                                             write_temp<="01000100";        -- CONVERT TEMPERATURE BINARY COMMAND
                                             STATE<=WRITE_BYTE; 

                             when WAIT800MS=> 
                                             if (cnt>=100000) then 
                                                 STATE<=RESET; 
                                                 cnt<=0; 
                                             else 
                                                 cnt<=cnt+1; 
                                                 STATE<=WAIT800MS; 
                                             end if; 

                                        when CMD_BE=>                       -- READ SCRATCHPAD
                                             write_temp<="10111110";      -- READ SCRATHPAD BINARY COMMAND
                                             STATE<=WRITE_BYTE; 

                             when GET_TMP=> 
                                             case GET_TMP_CNT is 
                                                 when 0 to 11=> 
                                                     STATE<=READ_BIT; 
                                                     TMP(GET_TMP_CNT)<=TMP_BIT; 
                                                     GET_TMP_CNT<=GET_TMP_CNT+1; 
                                                 when 12=> 
                                                     GET_TMP_CNT<=0; 
                                                     STATE<=WAIT4MS; 
                                            end case; 

                                            when WAIT4MS=> 
                                                 if (cnt>=4000) then 
                                                     STATE<=RESET; 
                                                     cnt<=0; 
                                                 else 
                                                     cnt<=cnt+1; 
                                                     STATE<=WAIT4MS; 
                                                 end if; 
                                                when others=>STATE<=RESET; 
                                            end case; 
                                        end if; 
                                    end process; 

                                    temp_h<='0'&TMP(11 downto 5); 
                                    temp_l<="0000"&TMP(4 downto 1); 
                                    temperature <= TMP;

end Behavioral; 

The warning I get is

WARNING:Xst:1293 - FF/Latch <write_temp_0> has a constant value of 0 in block     <ds18b20>. This FF/Latch will be trimmed during the optimization process.
WARNING:Xst:1710 - FF/Latch <Mtridata_dq> (without init value) has a constant value of 0 in block <ds18b20>. This FF/Latch will be trimmed during the optimization process.

write_temp is a variable that holds the binary commands for the sensor. So essentially, I will be sending these commands to the sensor via the "dq" bidirectional port. Now, the warning states that write_temp is always 0 which means I can't instruct the sensor to do any operation at all since its always 0.

Could anyone please shed some light on how to overcome this? Much appreciated.

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2 Answers 2

up vote 5 down vote accepted

Nothing is wrong here. The warning says that write_temp_0 is always 0 - that is, the warning only applies to bit 0 of write_temp, not the other 7 bits.

This is to be expected, as you never set bit 0 of write_temp to be anything but 0. The synthesizer picks up on this, and optimizes it by simply trimming it to be a constant 0 instead of being connected to logic.

So try out the code and see if it works - if it doesn't, it's probably due to other reasons.

Also, when writing and verifying code like this, the simulator is a fantastic tool - it'll allow you to locate logic errors in your code very easily. So no reason not to get to know how to use it.

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Thanks very much sonicwave. –  Triple777er Aug 29 '12 at 10:57

dear same problem i am facing same problem running my code on fir, i have run your code it synthesis but due to warning it show's undefined values of your input and clk, don't assign 0 value, try to put different value like write_temp 7 to 1. i am not full expert of vhdl but when i make this change similar way i get over these warning, hope this work for you also.

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