source: firmware/FTM/ethernet/dd_write_general_modul_beha.vhd@ 11111

Last change on this file since 11111 was 10441, checked in by weitzel, 14 years ago
new FTM firmware featuring e.g. start/stop run commands and new header
  • Property svn:executable set to *
File size: 6.4 KB
Line 
1--
2-- VHDL Architecture FACT_FTM_lib.dd_write_general_modul.beha
3--
4-- Created:
5-- by - kai.UNKNOWN (E5PCXX)
6-- at - 11:27:33 02.03.2011
7--
8-- using Mentor Graphics HDL Designer(TM) 2009.1 (Build 12)
9--
10LIBRARY ieee;
11USE ieee.std_logic_1164.all;
12USE ieee.std_logic_arith.all;
13USE IEEE.STD_LOGIC_UNSIGNED.all;
14
15library ftm_definitions;
16USE ftm_definitions.ftm_array_types.all;
17USE ftm_definitions.ftm_constants.all;
18
19ENTITY dd_write_general_modul IS
20PORT(
21 clk : IN std_logic;
22 dd_write_general : IN std_logic;
23 dd_write_general_started : OUT std_logic := '0';
24 dd_write_general_ready : OUT std_logic := '0';
25 dd_busy : IN std_logic;
26 dd_write : OUT std_logic := '0';
27 dd_started : IN std_logic;
28 dd_ready : IN std_logic;
29 dd_addr : OUT std_logic_vector (11 DOWNTO 0) := (others => '0');
30 dd_data : OUT std_logic_vector (15 DOWNTO 0) := (others => '0');
31 get_ot_counter : OUT std_logic := '0';
32 get_ot_counter_started : IN std_logic;
33 get_ot_counter_ready : IN std_logic;
34 on_time_counter : IN std_logic_vector (47 DOWNTO 0);
35 temp_sensor_ready : IN std_logic;
36 temp_sensor_array : IN sensor_array_type
37 );
38END ENTITY dd_write_general_modul;
39
40--
41ARCHITECTURE beha OF dd_write_general_modul IS
42
43 type state_write_general_proc_type is (WGP_INIT, WGP_CONFIG, WGP_IDLE,
44 WGP_OT_CNT, WGP_OT_CNT_END,
45 WGP_WRITE_COUNTER_00, WGP_WRITE_COUNTER_01, WGP_WRITE_COUNTER_02, WGP_WRITE_COUNTER_03,
46 WGP_WRITE_TEMP_01, WGP_WRITE_TEMP_02, WGP_WRITE_TEMP_03, WGP_WRITE_TEMP_04, WGP_WRITE_READY, WRITE_TO_DD_ADDR);
47 type state_write_dd_type is (WRITE_DD_START, WRITE_DD_WAIT, WRITE_DD_END);
48
49 signal state_write_general_proc : state_write_general_proc_type := WGP_INIT;
50 signal next_state_dd : state_write_general_proc_type := WGP_INIT;
51 signal state_write_dd : state_write_dd_type := WRITE_DD_START;
52
53 signal local_dd_addr : std_logic_vector (11 DOWNTO 0) := (others => '0');
54 signal local_dd_data : std_logic_vector (15 DOWNTO 0) := (others => '0');
55
56
57BEGIN
58 write_general_proc : process (clk)
59 begin
60 if rising_edge (clk) then
61 case state_write_general_proc is
62
63 when WGP_INIT =>
64 state_write_general_proc <= WGP_CONFIG;
65
66 when WGP_CONFIG =>
67 state_write_general_proc <= WGP_IDLE;
68
69 when WGP_IDLE =>
70 if (dd_write_general = '1') then
71 dd_write_general_started <= '1';
72 dd_write_general_ready <= '0';
73 get_ot_counter <= '1';
74 state_write_general_proc <= WGP_OT_CNT;
75 end if;
76
77 when WGP_OT_CNT =>
78 if (get_ot_counter_started = '1') then
79 get_ot_counter <= '0';
80 state_write_general_proc <= WGP_OT_CNT_END;
81 end if;
82
83 when WGP_OT_CNT_END =>
84 if (get_ot_counter_ready = '1') then
85 state_write_general_proc <= WGP_WRITE_COUNTER_00;
86 end if;
87
88 when WGP_WRITE_COUNTER_00 =>
89 local_dd_addr <= X"000";
90 local_dd_data <= X"0000";
91 next_state_dd <= WGP_WRITE_COUNTER_01;
92 state_write_general_proc <= WRITE_TO_DD_ADDR;
93
94 when WGP_WRITE_COUNTER_01 =>
95 local_dd_addr <= X"001";
96 local_dd_data <= on_time_counter (47 DOWNTO 32);
97 next_state_dd <= WGP_WRITE_COUNTER_02;
98 state_write_general_proc <= WRITE_TO_DD_ADDR;
99
100 when WGP_WRITE_COUNTER_02 =>
101 local_dd_addr <= X"002";
102 local_dd_data <= on_time_counter (31 DOWNTO 16);
103 next_state_dd <= WGP_WRITE_COUNTER_03;
104 state_write_general_proc <= WRITE_TO_DD_ADDR;
105
106 when WGP_WRITE_COUNTER_03 =>
107 local_dd_addr <= X"003";
108 local_dd_data <= on_time_counter (15 DOWNTO 0);
109 next_state_dd <= WGP_WRITE_TEMP_01;
110 state_write_general_proc <= WRITE_TO_DD_ADDR;
111
112 when WGP_WRITE_TEMP_01 =>
113 if (temp_sensor_ready = '1') then
114 local_dd_addr <= X"004";
115 local_dd_data <= conv_std_logic_vector (temp_sensor_array (0), 16);
116 next_state_dd <= WGP_WRITE_TEMP_02;
117 state_write_general_proc <= WRITE_TO_DD_ADDR;
118 end if;
119
120 when WGP_WRITE_TEMP_02 =>
121 if (temp_sensor_ready = '1') then
122 local_dd_addr <= X"005";
123 local_dd_data <= conv_std_logic_vector (temp_sensor_array (1), 16);
124 next_state_dd <= WGP_WRITE_TEMP_03;
125 state_write_general_proc <= WRITE_TO_DD_ADDR;
126 end if;
127
128 when WGP_WRITE_TEMP_03 =>
129 if (temp_sensor_ready = '1') then
130 local_dd_addr <= X"006";
131 local_dd_data <= conv_std_logic_vector (temp_sensor_array (2), 16);
132 next_state_dd <= WGP_WRITE_TEMP_04;
133 state_write_general_proc <= WRITE_TO_DD_ADDR;
134 end if;
135
136 when WGP_WRITE_TEMP_04 =>
137 if (temp_sensor_ready = '1') then
138 local_dd_addr <= X"007";
139 local_dd_data <= conv_std_logic_vector (temp_sensor_array (3), 16);
140 next_state_dd <= WGP_WRITE_READY;
141 state_write_general_proc <= WRITE_TO_DD_ADDR;
142 end if;
143
144 when WGP_WRITE_READY =>
145 if (dd_write_general = '0') then
146 dd_write_general_started <= '0';
147 dd_write_general_ready <= '1';
148 state_write_general_proc <= WGP_IDLE;
149 end if;
150
151 -- write to dynamic data block
152 when WRITE_TO_DD_ADDR =>
153 case state_write_dd is
154 when WRITE_DD_START =>
155 if (dd_busy = '0') then
156 dd_addr <= local_dd_addr;
157 dd_data <= local_dd_data;
158 dd_write <= '1';
159 state_write_dd <= WRITE_DD_WAIT;
160 end if;
161 when WRITE_DD_WAIT =>
162 if (dd_started = '1') then
163 dd_write <= '0';
164 state_write_dd <= WRITE_DD_END;
165 end if;
166 when WRITE_DD_END =>
167 if (dd_ready = '1') then
168 state_write_dd <= WRITE_DD_START;
169 state_write_general_proc <= next_state_dd;
170 end if;
171 end case;
172
173 end case;
174 end if;
175 end process write_general_proc;
176
177END ARCHITECTURE beha;
178
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