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FTU_rs485_control.vhd@ 13361

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Last change on this file since 13361 was 10238, checked in by weitzel, 14 years ago
change in FTU rs485 module; FTUs answer now one BAUD period later
File size: 63.0 KB

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1	----------------------------------------------------------------------------------
2	-- Company: ETH Zurich, Institute for Particle Physics
3	-- Engineer: Q. Weitzel, P. Vogler
4	--
5	-- Create Date: 09/13/2010
6	-- Design Name:
7	-- Module Name: FTU_rs485_control - Behavioral
8	-- Project Name:
9	-- Target Devices:
10	-- Tool versions:
11	-- Description: top level entity of FTU RS485 module
12	--
13	-- Dependencies:
14	--
15	-- Revision:
16	-- Revision 0.01 - File Created
17	-- Additional Comments:
18	--
19	----------------------------------------------------------------------------------
20
21	library IEEE;
22	use IEEE.STD_LOGIC_1164.ALL;
23	use IEEE.STD_LOGIC_ARITH.ALL;
24	use IEEE.STD_LOGIC_UNSIGNED.ALL;
25
26	library ftu_definitions;
27	USE ftu_definitions.ftu_array_types.all;
28	USE ftu_definitions.ftu_constants.all;
29
30	---- Uncomment the following library declaration if instantiating
31	---- any Xilinx primitives in this code.
32	--library UNISIM;
33	--use UNISIM.VComponents.all;
34
35	entity FTU_rs485_control is
36	port(
37	main_clk : IN std_logic;
38	brd_add : IN std_logic_vector(5 downto 0);
39	rx_d : IN std_logic;
40	rates_ready : IN std_logic; -- rate_array_rs485 has now valid rates for sending
41	DACs_ready : IN std_logic; -- dac_array_rs485_in is ok for sending
42	enables_ready : IN std_logic; -- enable_array_rs485_in is ok for sending
43	prescaling_ready : IN std_logic; -- prescaling byte is ok for sending
44	ping_pong_ready : IN std_logic; -- ping pong successful
45	rate_array_rs485 : IN rate_array_type;
46	overflow_array_rs485_in : IN STD_LOGIC_VECTOR(7 downto 0);
47	dac_array_rs485_in : IN dac_array_type;
48	enable_array_rs485_in : IN enable_array_type;
49	prescaling_rs485_in : IN STD_LOGIC_VECTOR(7 downto 0);
50	dna : IN STD_LOGIC_VECTOR(63 downto 0);
51	rx_en : OUT std_logic;
52	tx_d : OUT std_logic;
53	tx_en : OUT std_logic;
54	new_DACs : OUT std_logic := '0'; -- new DACs arrived via RS485
55	new_enables : OUT std_logic := '0'; -- new enables arrived via RS485
56	new_prescaling : OUT std_logic := '0'; -- new prescaling arrived via RS485
57	read_rates : OUT std_logic := '0'; -- FTM wants to read rates
58	read_DACs : OUT std_logic := '0'; -- FTM wants to read DACs
59	read_enables : OUT std_logic := '0'; -- FTM wants to read enable pattern
60	read_prescaling : OUT std_logic := '0'; -- FTM wants to read prescaling value
61	ping_pong : OUT std_logic := '0'; -- ping pong command from FTM
62	dac_array_rs485_out : OUT dac_array_type;
63	enable_array_rs485_out : OUT enable_array_type;
64	prescaling_rs485_out : OUT STD_LOGIC_VECTOR(7 downto 0)
65	);
66	end FTU_rs485_control;
67
68	architecture Behavioral of FTU_rs485_control is
69
70	signal tx_start_sig : std_logic := '0';
71	signal tx_data_sig : std_logic_vector (7 DOWNTO 0) := (others => '0');
72	signal tx_busy_sig : std_logic; -- initialized in FTU_rs485_interface
73
74	signal rx_valid_sig : std_logic; -- initialized in FTU_rs485_interface
75	signal rx_data_sig : std_logic_vector (7 DOWNTO 0); -- initialized in FTU_rs485_interface
76	signal rx_busy_sig : std_logic; -- initialized in FTU_rs485_interface
77
78	signal block_valid_sig : std_logic; -- initialized in FTU_rs485_receiver
79	signal start_interpreter_sig : std_logic := '0';
80	signal data_block_sig : std_logic_vector(RS485_BLOCK_WIDTH - 1 downto 0); -- initialized in FTU_rs485_receiver
81
82	signal int_new_DACs_sig : std_logic; -- initialized in FTU_rs485_interpreter
83	signal int_new_enables_sig : std_logic; -- initialized in FTU_rs485_interpreter
84	signal int_new_prescaling_sig : std_logic; -- initialized in FTU_rs485_interpreter
85	signal int_read_rates_sig : std_logic; -- initialized in FTU_rs485_interpreter
86	signal int_read_DACs_sig : std_logic; -- initialized in FTU_rs485_interpreter
87	signal int_read_enables_sig : std_logic; -- initialized in FTU_rs485_interpreter
88	signal int_read_prescaling_sig : std_logic; -- initialized in FTU_rs485_interpreter
89	signal int_ping_pong_sig : std_logic; -- initialized in FTU_rs485_interpreter
90
91	signal txcnt : integer range 0 to (RS485_BLOCK_WIDTH / 8) := 0; -- count 28 1-byte frames
92
93	signal reset_crc_sig : std_logic := '0';
94	signal crc_enable_sig : std_logic := '0';
95	signal crc_input_sig : std_logic_vector(RS485_BLOCK_WIDTH - 9 downto 0) := (others => '0');
96	signal crc_sig : std_logic_vector(CRC_POLYNOMIAL'length - 1 downto 0) := (others => '0');
97	signal crc_sig_inv : std_logic_vector(CRC_POLYNOMIAL'length - 1 downto 0) := (others => '0');
98	signal crc_error_cnt_sig : integer range 0 to 255 := 0;
99
100	component ucrc_par
101	generic(
102	POLYNOMIAL : std_logic_vector;
103	INIT_VALUE : std_logic_vector;
104	DATA_WIDTH : integer range 2 to 256;
105	SYNC_RESET : integer range 0 to 1
106	);
107	port(
108	clk_i : in std_logic;
109	rst_i : in std_logic;
110	clken_i : in std_logic;
111	data_i : in std_logic_vector(DATA_WIDTH - 1 downto 0);
112	match_o : out std_logic;
113	crc_o : out std_logic_vector(POLYNOMIAL'length - 1 downto 0)
114	);
115	end component;
116
117	component FTU_rs485_receiver
118	port(
119	rec_clk : in std_logic;
120	-- rx_busy : in std_logic;
121	rec_din : in std_logic_vector(7 downto 0);
122	rec_den : in std_logic;
123	rec_dout : out std_logic_vector(RS485_BLOCK_WIDTH - 1 downto 0);
124	rec_valid : out std_logic
125	);
126	end component;
127
128	component FTU_rs485_interpreter
129	port(
130	clk : IN std_logic;
131	data_block : IN std_logic_vector(RS485_BLOCK_WIDTH - 1 downto 0);
132	block_valid : IN std_logic;
133	brd_add : IN std_logic_vector(5 downto 0);
134	crc_error_cnt : OUT integer range 0 to 255;
135	int_new_DACs : OUT std_logic;
136	int_new_enables : OUT std_logic;
137	int_new_prescaling : OUT std_logic;
138	int_read_rates : OUT std_logic;
139	int_read_DACs : OUT std_logic;
140	int_read_enables : OUT std_logic;
141	int_read_prescaling : OUT std_logic;
142	int_ping_pong : OUT std_logic;
143	dac_array_rs485_out : OUT dac_array_type;
144	enable_array_rs485_out : OUT enable_array_type;
145	prescaling_rs485_out : OUT STD_LOGIC_VECTOR(7 downto 0)
146	);
147	end component;
148
149	component FTU_rs485_interface
150	port(
151	clk : IN std_logic;
152	-- RS485
153	rx_d : IN std_logic;
154	rx_en : OUT std_logic;
155	tx_d : OUT std_logic;
156	tx_en : OUT std_logic;
157	-- FPGA
158	rx_data : OUT std_logic_vector (7 DOWNTO 0);
159	rx_busy : OUT std_logic := '0';
160	rx_valid : OUT std_logic := '0';
161	tx_data : IN std_logic_vector (7 DOWNTO 0);
162	tx_busy : OUT std_logic := '0';
163	tx_start : IN std_logic
164	);
165	end component;
166
167	type FTU_rs485_control_StateType is (INIT, RECEIVE,
168	READ_RATES_WAIT, READ_DAC_WAIT, READ_ENABLE_WAIT, READ_PRESCALING_WAIT,
169	READ_RATES_WAIT_2, READ_DAC_WAIT_2, READ_ENABLE_WAIT_2, READ_PRESCALING_WAIT_2,
170	SET_DAC_WAIT, SET_ENABLE_WAIT, SET_PRESCALING_WAIT, PING_PONG_WAIT,
171	SET_DAC_WAIT_2, SET_ENABLE_WAIT_2, SET_PRESCALING_WAIT_2, PING_PONG_WAIT_2,
172	READ_RATES_TRANSMIT, READ_DAC_TRANSMIT, READ_ENABLE_TRANSMIT, READ_PRESCALING_TRANSMIT,
173	SET_DAC_TRANSMIT, SET_ENABLE_TRANSMIT, SET_PRESCALING_TRANSMIT, PING_PONG_TRANSMIT);
174	signal FTU_rs485_control_State : FTU_rs485_control_StateType;
175
176	begin
177
178	crc_sig <= crc_sig_inv(0) & crc_sig_inv(1) & crc_sig_inv(2) & crc_sig_inv(3) & crc_sig_inv(4) & crc_sig_inv(5) & crc_sig_inv(6) & crc_sig_inv(7);
179	start_interpreter_sig <= block_valid_sig and (not rx_busy_sig); -- avoid answering to early to FTM
180
181	Inst_ucrc_par : ucrc_par
182	generic map(
183	POLYNOMIAL => CRC_POLYNOMIAL,
184	INIT_VALUE => CRC_INIT_VALUE,
185	DATA_WIDTH => 216,
186	SYNC_RESET => 1
187	)
188	port map(
189	clk_i => main_clk,
190	rst_i => reset_crc_sig,
191	clken_i => crc_enable_sig,
192	data_i => crc_input_sig,
193	match_o => open,
194	crc_o => crc_sig_inv
195	);
196
197	Inst_FTU_rs485_receiver : FTU_rs485_receiver
198	port map(
199	rec_clk => main_clk,
200	-- rx_busy => rx_busy_sig,
201	rec_din => rx_data_sig,
202	rec_den => rx_valid_sig,
203	rec_dout => data_block_sig,
204	rec_valid => block_valid_sig
205	);
206
207	Inst_FTU_rs485_interpreter : FTU_rs485_interpreter
208	port map(
209	clk => main_clk,
210	data_block => data_block_sig,
211	block_valid => start_interpreter_sig,
212	brd_add => brd_add,
213	crc_error_cnt => crc_error_cnt_sig,
214	int_new_DACs => int_new_DACs_sig,
215	int_new_enables => int_new_enables_sig,
216	int_new_prescaling => int_new_prescaling_sig,
217	int_read_rates => int_read_rates_sig,
218	int_read_DACs => int_read_DACs_sig,
219	int_read_enables => int_read_enables_sig,
220	int_read_prescaling => int_read_prescaling_sig,
221	int_ping_pong => int_ping_pong_sig,
222	dac_array_rs485_out => dac_array_rs485_out,
223	enable_array_rs485_out => enable_array_rs485_out,
224	prescaling_rs485_out => prescaling_rs485_out
225	);
226
227	Inst_FTU_rs485_interface : FTU_rs485_interface
228	port map(
229	clk => main_clk,
230	-- RS485
231	rx_d => rx_d,
232	rx_en => rx_en,
233	tx_d => tx_d,
234	tx_en => tx_en,
235	-- FPGA
236	rx_data => rx_data_sig,
237	rx_busy => rx_busy_sig,
238	rx_valid => rx_valid_sig,
239	tx_data => tx_data_sig,
240	tx_busy => tx_busy_sig,
241	tx_start => tx_start_sig
242	);
243
244	--FTU RS485 control finite state machine
245
246	FTU_rs485_control_FSM: process (main_clk)
247	begin
248	if Rising_edge(main_clk) then
249	case FTU_rs485_control_State is
250
251	when INIT => -- reset CRC register
252	reset_crc_sig <= '1';
253	FTU_rs485_control_State <= RECEIVE;
254
255	when RECEIVE => -- default state, receiver on, no transmission
256	reset_crc_sig <= '0';
257	crc_enable_sig <= '0';
258	tx_start_sig <= '0';
259	if (int_new_DACs_sig = '1') then
260	new_DACs <= '1';
261	new_enables <= '0';
262	new_prescaling <= '0';
263	read_rates <= '0';
264	read_DACs <= '0';
265	read_enables <= '0';
266	read_prescaling <= '0';
267	ping_pong <= '0';
268	FTU_rs485_control_State <= SET_DAC_WAIT;
269	elsif (int_new_DACs_sig = '0' and int_new_enables_sig = '1') then
270	new_DACs <= '0';
271	new_enables <= '1';
272	new_prescaling <= '0';
273	read_rates <= '0';
274	read_DACs <= '0';
275	read_enables <= '0';
276	read_prescaling <= '0';
277	ping_pong <= '0';
278	FTU_rs485_control_State <= SET_ENABLE_WAIT;
279	elsif (int_new_DACs_sig = '0' and int_new_enables_sig = '0' and int_new_prescaling_sig = '1') then
280	new_DACs <= '0';
281	new_enables <= '0';
282	new_prescaling <= '1';
283	read_rates <= '0';
284	read_DACs <= '0';
285	read_enables <= '0';
286	read_prescaling <= '0';
287	ping_pong <= '0';
288	FTU_rs485_control_State <= SET_PRESCALING_WAIT;
289	elsif (int_new_DACs_sig = '0' and int_new_enables_sig = '0' and int_new_prescaling_sig = '0' and
290	int_read_rates_sig = '1') then
291	new_DACs <= '0';
292	new_enables <= '0';
293	new_prescaling <= '0';
294	read_rates <= '1';
295	read_DACs <= '0';
296	read_enables <= '0';
297	read_prescaling <= '0';
298	ping_pong <= '0';
299	FTU_rs485_control_State <= READ_RATES_WAIT;
300	elsif (int_new_DACs_sig = '0' and int_new_enables_sig = '0' and int_new_prescaling_sig = '0' and
301	int_read_rates_sig = '0' and int_read_DACs_sig = '1') then
302	new_DACs <= '0';
303	new_enables <= '0';
304	new_prescaling <= '0';
305	read_rates <= '0';
306	read_DACs <= '1';
307	read_enables <= '0';
308	read_prescaling <= '0';
309	ping_pong <= '0';
310	FTU_rs485_control_State <= READ_DAC_WAIT;
311	elsif (int_new_DACs_sig = '0' and int_new_enables_sig = '0' and int_new_prescaling_sig = '0' and
312	int_read_rates_sig = '0' and int_read_DACs_sig = '0' and int_read_enables_sig = '1') then
313	new_DACs <= '0';
314	new_enables <= '0';
315	new_prescaling <= '0';
316	read_rates <= '0';
317	read_DACs <= '0';
318	read_enables <= '1';
319	read_prescaling <= '0';
320	ping_pong <= '0';
321	FTU_rs485_control_State <= READ_ENABLE_WAIT;
322	elsif (int_new_DACs_sig = '0' and int_new_enables_sig = '0' and int_new_prescaling_sig = '0' and
323	int_read_rates_sig = '0' and int_read_DACs_sig = '0' and int_read_enables_sig = '0' and int_read_prescaling_sig = '1') then
324	new_DACs <= '0';
325	new_enables <= '0';
326	new_prescaling <= '0';
327	read_rates <= '0';
328	read_DACs <= '0';
329	read_enables <= '0';
330	read_prescaling <= '1';
331	ping_pong <= '0';
332	FTU_rs485_control_State <= READ_PRESCALING_WAIT;
333	elsif (int_new_DACs_sig = '0' and int_new_enables_sig = '0' and int_new_prescaling_sig = '0' and
334	int_read_rates_sig = '0' and int_read_DACs_sig = '0' and int_read_enables_sig = '0' and int_read_prescaling_sig = '0' and
335	int_ping_pong_sig = '1') then
336	new_DACs <= '0';
337	new_enables <= '0';
338	new_prescaling <= '0';
339	read_rates <= '0';
340	read_DACs <= '0';
341	read_enables <= '0';
342	read_prescaling <= '0';
343	ping_pong <= '1';
344	FTU_rs485_control_State <= PING_PONG_WAIT;
345	else
346	new_DACs <= '0';
347	new_enables <= '0';
348	new_prescaling <= '0';
349	read_rates <= '0';
350	read_DACs <= '0';
351	read_enables <= '0';
352	read_prescaling <= '0';
353	ping_pong <= '0';
354	FTU_rs485_control_State <= RECEIVE;
355	end if;
356
357	when SET_DAC_WAIT=> -- wait until FTU control says "done" and then answer to FTM
358	if (DACs_ready = '1') then
359	new_DACs <= '0';
360	crc_enable_sig <= '1';
361	crc_input_sig <= conv_std_logic_vector(crc_error_cnt_sig, 8)
362	& "00000000" & "00000000" & "00000000" & "00000000" & "00000000"
363	& "00000000" & "00000000" & "00000000" & "00000000" & "00000000"
364	& "00000000"
365	& conv_std_logic_vector(dac_array_rs485_in(7),16)(15 downto 8) & conv_std_logic_vector(dac_array_rs485_in(7),16)(7 downto 0)
366	& conv_std_logic_vector(dac_array_rs485_in(3),16)(15 downto 8) & conv_std_logic_vector(dac_array_rs485_in(3),16)(7 downto 0)
367	& conv_std_logic_vector(dac_array_rs485_in(2),16)(15 downto 8) & conv_std_logic_vector(dac_array_rs485_in(2),16)(7 downto 0)
368	& conv_std_logic_vector(dac_array_rs485_in(1),16)(15 downto 8) & conv_std_logic_vector(dac_array_rs485_in(1),16)(7 downto 0)
369	& conv_std_logic_vector(dac_array_rs485_in(0),16)(15 downto 8) & conv_std_logic_vector(dac_array_rs485_in(0),16)(7 downto 0) & "00000000"
370	& FIRMWARE_ID & "00" & brd_add & FTM_ADDRESS & RS485_START_DELIM;
371	FTU_rs485_control_State <= SET_DAC_WAIT_2;
372	else
373	new_DACs <= '1';
374	FTU_rs485_control_State <= SET_DAC_WAIT;
375	end if;
376
377	when SET_DAC_WAIT_2 => -- wait one cycle for CRC calculation
378	crc_enable_sig <= '0';
379	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
380
381	when SET_ENABLE_WAIT => -- wait until FTU control says "done" and then answer to FTM
382	if (enables_ready = '1') then
383	new_enables <= '0';
384	crc_enable_sig <= '1';
385	crc_input_sig <= conv_std_logic_vector(crc_error_cnt_sig, 8)
386	& "00000000" & "00000000" & "00000000" & "00000000" & "00000000"
387	& "00000000" & "00000000" & "00000000" & "00000000" & "00000000"
388	& "00000000" & "00000000" & "00000000"
389	& enable_array_rs485_in(3)(15 downto 8) & enable_array_rs485_in(3)(7 downto 0)
390	& enable_array_rs485_in(2)(15 downto 8) & enable_array_rs485_in(2)(7 downto 0)
391	& enable_array_rs485_in(1)(15 downto 8) & enable_array_rs485_in(1)(7 downto 0)
392	& enable_array_rs485_in(0)(15 downto 8) & enable_array_rs485_in(0)(7 downto 0) & "00000011"
393	& FIRMWARE_ID & "00" & brd_add & FTM_ADDRESS & RS485_START_DELIM;
394	FTU_rs485_control_State <= SET_ENABLE_WAIT_2;
395	else
396	new_enables <= '1';
397	FTU_rs485_control_State <= SET_ENABLE_WAIT;
398	end if;
399
400	when SET_ENABLE_WAIT_2 => -- wait one cycle for CRC calculation
401	crc_enable_sig <= '0';
402	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
403
404	when SET_PRESCALING_WAIT => -- wait until FTU control says "done" and then answer to FTM
405	if (prescaling_ready = '1') then
406	new_prescaling <= '0';
407	crc_enable_sig <= '1';
408	crc_input_sig <= conv_std_logic_vector(crc_error_cnt_sig, 8)
409	& "00000000" & "00000000" & "00000000" & "00000000" & "00000000"
410	& "00000000" & "00000000" & "00000000" & "00000000" & "00000000"
411	& "00000000" & "00000000" & "00000000" & "00000000" & "00000000"
412	& "00000000" & "00000000" & "00000000" & "00000000"
413	& overflow_array_rs485_in & prescaling_rs485_in & "00000110"
414	& FIRMWARE_ID & "00" & brd_add & FTM_ADDRESS & RS485_START_DELIM;
415	FTU_rs485_control_State <= SET_PRESCALING_WAIT_2;
416	else
417	new_prescaling <= '1';
418	FTU_rs485_control_State <= SET_PRESCALING_WAIT;
419	end if;
420
421	when SET_PRESCALING_WAIT_2 => -- wait one cycle for CRC calculation
422	crc_enable_sig <= '0';
423	FTU_rs485_control_State <= SET_PRESCALING_TRANSMIT;
424
425	when READ_RATES_WAIT => -- wait until FTU control says "done" and then answer to FTM
426	if (rates_ready = '1') then
427	read_rates <= '0';
428	crc_enable_sig <= '1';
429	crc_input_sig <= conv_std_logic_vector(crc_error_cnt_sig, 8)
430	& overflow_array_rs485_in
431	& conv_std_logic_vector(rate_array_rs485(4),32)(31 downto 24) & conv_std_logic_vector(rate_array_rs485(4),32)(23 downto 16)
432	& conv_std_logic_vector(rate_array_rs485(4),32)(15 downto 8) & conv_std_logic_vector(rate_array_rs485(4),32)(7 downto 0)
433	& conv_std_logic_vector(rate_array_rs485(3),32)(31 downto 24) & conv_std_logic_vector(rate_array_rs485(3),32)(23 downto 16)
434	& conv_std_logic_vector(rate_array_rs485(3),32)(15 downto 8) & conv_std_logic_vector(rate_array_rs485(3),32)(7 downto 0)
435	& conv_std_logic_vector(rate_array_rs485(2),32)(31 downto 24) & conv_std_logic_vector(rate_array_rs485(2),32)(23 downto 16)
436	& conv_std_logic_vector(rate_array_rs485(2),32)(15 downto 8) & conv_std_logic_vector(rate_array_rs485(2),32)(7 downto 0)
437	& conv_std_logic_vector(rate_array_rs485(1),32)(31 downto 24) & conv_std_logic_vector(rate_array_rs485(1),32)(23 downto 16)
438	& conv_std_logic_vector(rate_array_rs485(1),32)(15 downto 8) & conv_std_logic_vector(rate_array_rs485(1),32)(7 downto 0)
439	& conv_std_logic_vector(rate_array_rs485(0),32)(31 downto 24) & conv_std_logic_vector(rate_array_rs485(0),32)(23 downto 16)
440	& conv_std_logic_vector(rate_array_rs485(0),32)(15 downto 8) & conv_std_logic_vector(rate_array_rs485(0),32)(7 downto 0) & "00000010"
441	& FIRMWARE_ID & "00" & brd_add & FTM_ADDRESS & RS485_START_DELIM;
442	FTU_rs485_control_State <= READ_RATES_WAIT_2;
443	else
444	read_rates <= '1';
445	FTU_rs485_control_State <= READ_RATES_WAIT;
446	end if;
447
448	when READ_RATES_WAIT_2 => -- wait one cycle for CRC calculation
449	crc_enable_sig <= '0';
450	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
451
452	when READ_DAC_WAIT => -- wait until FTU control says "done" and then answer to FTM
453	if (DACs_ready = '1') then
454	read_DACs <= '0';
455	crc_enable_sig <= '1';
456	crc_input_sig <= conv_std_logic_vector(crc_error_cnt_sig, 8)
457	& "00000000" & "00000000" & "00000000" & "00000000" & "00000000"
458	& "00000000" & "00000000" & "00000000" & "00000000" & "00000000"
459	& "00000000"
460	& conv_std_logic_vector(dac_array_rs485_in(7),16)(15 downto 8) & conv_std_logic_vector(dac_array_rs485_in(7),16)(7 downto 0)
461	& conv_std_logic_vector(dac_array_rs485_in(3),16)(15 downto 8) & conv_std_logic_vector(dac_array_rs485_in(3),16)(7 downto 0)
462	& conv_std_logic_vector(dac_array_rs485_in(2),16)(15 downto 8) & conv_std_logic_vector(dac_array_rs485_in(2),16)(7 downto 0)
463	& conv_std_logic_vector(dac_array_rs485_in(1),16)(15 downto 8) & conv_std_logic_vector(dac_array_rs485_in(1),16)(7 downto 0)
464	& conv_std_logic_vector(dac_array_rs485_in(0),16)(15 downto 8) & conv_std_logic_vector(dac_array_rs485_in(0),16)(7 downto 0) & "00000001"
465	& FIRMWARE_ID & "00" & brd_add & FTM_ADDRESS & RS485_START_DELIM;
466	FTU_rs485_control_State <= READ_DAC_WAIT_2;
467	else
468	read_DACs <= '1';
469	FTU_rs485_control_State <= READ_DAC_WAIT;
470	end if;
471
472	when READ_DAC_WAIT_2 => -- wait one cycle for CRC calculation
473	crc_enable_sig <= '0';
474	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
475
476	when READ_ENABLE_WAIT => -- wait until FTU control says "done" and then answer to FTM
477	if (enables_ready = '1') then
478	read_enables <= '0';
479	crc_enable_sig <= '1';
480	crc_input_sig <= conv_std_logic_vector(crc_error_cnt_sig, 8)
481	& "00000000" & "00000000" & "00000000" & "00000000" & "00000000"
482	& "00000000" & "00000000" & "00000000" & "00000000" & "00000000"
483	& "00000000" & "00000000" & "00000000"
484	& enable_array_rs485_in(3)(15 downto 8) & enable_array_rs485_in(3)(7 downto 0)
485	& enable_array_rs485_in(2)(15 downto 8) & enable_array_rs485_in(2)(7 downto 0)
486	& enable_array_rs485_in(1)(15 downto 8) & enable_array_rs485_in(1)(7 downto 0)
487	& enable_array_rs485_in(0)(15 downto 8) & enable_array_rs485_in(0)(7 downto 0) & "00000100"
488	& FIRMWARE_ID & "00" & brd_add & FTM_ADDRESS & RS485_START_DELIM;
489	FTU_rs485_control_State <= READ_ENABLE_WAIT_2;
490	else
491	read_enables <= '1';
492	FTU_rs485_control_State <= READ_ENABLE_WAIT;
493	end if;
494
495	when READ_ENABLE_WAIT_2 => -- wait one cycle for CRC calculation
496	crc_enable_sig <= '0';
497	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
498
499	when READ_PRESCALING_WAIT => -- wait until FTU control says "done" and then answer to FTM
500	if (prescaling_ready = '1') then
501	read_prescaling <= '0';
502	crc_enable_sig <= '1';
503	crc_input_sig <= conv_std_logic_vector(crc_error_cnt_sig, 8)
504	& "00000000" & "00000000" & "00000000" & "00000000" & "00000000"
505	& "00000000" & "00000000" & "00000000" & "00000000" & "00000000"
506	& "00000000" & "00000000" & "00000000" & "00000000" & "00000000"
507	& "00000000" & "00000000" & "00000000" & "00000000"
508	& overflow_array_rs485_in & prescaling_rs485_in & "00000111"
509	& FIRMWARE_ID & "00" & brd_add & FTM_ADDRESS & RS485_START_DELIM;
510	FTU_rs485_control_State <= READ_PRESCALING_WAIT_2;
511	else
512	read_prescaling <= '1';
513	FTU_rs485_control_State <= READ_PRESCALING_WAIT;
514	end if;
515
516	when READ_PRESCALING_WAIT_2 => -- wait one cycle for CRC calculation
517	crc_enable_sig <= '0';
518	FTU_rs485_control_State <= READ_PRESCALING_TRANSMIT;
519
520	when PING_PONG_WAIT => -- wait until FTU control says "done" and then answer to FTM
521	if (ping_pong_ready = '1') then
522	ping_pong <= '0';
523	crc_enable_sig <= '1';
524	crc_input_sig <= conv_std_logic_vector(crc_error_cnt_sig, 8)
525	& "00000000" & "00000000" & "00000000" & "00000000" & "00000000"
526	& "00000000" & "00000000" & "00000000" & "00000000" & "00000000"
527	& "00000000" & "00000000" & "00000000"
528	& dna(63 downto 0) & "00000101"
529	& FIRMWARE_ID & "00" & brd_add & FTM_ADDRESS & RS485_START_DELIM;
530	FTU_rs485_control_State <= PING_PONG_WAIT_2;
531	else
532	ping_pong <= '1';
533	FTU_rs485_control_State <= PING_PONG_WAIT;
534	end if;
535
536	when PING_PONG_WAIT_2 => -- wait one cycle for CRC calculation
537	crc_enable_sig <= '0';
538	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
539
540	when SET_DAC_TRANSMIT =>
541	if tx_busy_sig = '0' then
542	if txcnt = 0 then -- start delimiter
543	txcnt <= txcnt + 1;
544	tx_data_sig <= RS485_START_DELIM;
545	tx_start_sig <= '1';
546	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
547	elsif txcnt = 1 then -- FTM address
548	txcnt <= txcnt + 1;
549	tx_data_sig <= FTM_ADDRESS;
550	tx_start_sig <= '1';
551	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
552	elsif txcnt = 2 then -- board address
553	txcnt <= txcnt + 1;
554	tx_data_sig <= "00" & brd_add;
555	tx_start_sig <= '1';
556	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
557	elsif txcnt = 3 then -- firmware ID
558	txcnt <= txcnt + 1;
559	tx_data_sig <= FIRMWARE_ID;
560	tx_start_sig <= '1';
561	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
562	elsif txcnt = 4 then -- mirrored command
563	txcnt <= txcnt + 1;
564	tx_data_sig <= "00000000";
565	tx_start_sig <= '1';
566	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
567	elsif txcnt = 5 then -- data: DAC A low
568	txcnt <= txcnt + 1;
569	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(0),16)(7 downto 0);
570	tx_start_sig <= '1';
571	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
572	elsif txcnt = 6 then -- data: DAC A high
573	txcnt <= txcnt + 1;
574	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(0),16)(15 downto 8);
575	tx_start_sig <= '1';
576	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
577	elsif txcnt = 7 then -- data: DAC B low
578	txcnt <= txcnt + 1;
579	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(1),16)(7 downto 0);
580	tx_start_sig <= '1';
581	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
582	elsif txcnt = 8 then -- data: DAC B high
583	txcnt <= txcnt + 1;
584	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(1),16)(15 downto 8);
585	tx_start_sig <= '1';
586	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
587	elsif txcnt = 9 then -- data: DAC C low
588	txcnt <= txcnt + 1;
589	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(2),16)(7 downto 0);
590	tx_start_sig <= '1';
591	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
592	elsif txcnt = 10 then -- data: DAC C high
593	txcnt <= txcnt + 1;
594	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(2),16)(15 downto 8);
595	tx_start_sig <= '1';
596	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
597	elsif txcnt = 11 then -- data: DAC D low
598	txcnt <= txcnt + 1;
599	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(3),16)(7 downto 0);
600	tx_start_sig <= '1';
601	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
602	elsif txcnt = 12 then -- data: DAC D high
603	txcnt <= txcnt + 1;
604	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(3),16)(15 downto 8);
605	tx_start_sig <= '1';
606	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
607	elsif txcnt = 13 then -- data: DAC E low
608	txcnt <= txcnt + 1;
609	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(7),16)(7 downto 0);
610	tx_start_sig <= '1';
611	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
612	elsif txcnt = 14 then -- data: DAC E high
613	txcnt <= txcnt + 1;
614	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(7),16)(15 downto 8);
615	tx_start_sig <= '1';
616	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
617	elsif txcnt < ((RS485_BLOCK_WIDTH / 8) - 2) then -- data: not used
618	txcnt <= txcnt + 1;
619	tx_data_sig <= "00000000";
620	tx_start_sig <= '1';
621	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
622	elsif txcnt = ((RS485_BLOCK_WIDTH / 8) - 2) then -- CRC error counter
623	txcnt <= txcnt + 1;
624	tx_data_sig <= conv_std_logic_vector(crc_error_cnt_sig, 8);
625	tx_start_sig <= '1';
626	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
627	elsif txcnt = ((RS485_BLOCK_WIDTH / 8) - 1) then -- check sum
628	txcnt <= txcnt + 1;
629	tx_data_sig <= crc_sig;
630	tx_start_sig <= '1';
631	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
632	else -- transmission finished
633	txcnt <= 0;
634	reset_crc_sig <= '1';
635	FTU_rs485_control_State <= RECEIVE;
636	end if;
637	else
638	tx_start_sig <= '0';
639	FTU_rs485_control_State <= SET_DAC_TRANSMIT;
640	end if;
641
642	when SET_ENABLE_TRANSMIT =>
643	if tx_busy_sig = '0' then
644	if txcnt = 0 then -- start delimiter
645	txcnt <= txcnt + 1;
646	tx_data_sig <= RS485_START_DELIM;
647	tx_start_sig <= '1';
648	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
649	elsif txcnt = 1 then -- FTM address
650	txcnt <= txcnt + 1;
651	tx_data_sig <= FTM_ADDRESS;
652	tx_start_sig <= '1';
653	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
654	elsif txcnt = 2 then -- board address
655	txcnt <= txcnt + 1;
656	tx_data_sig <= "00" & brd_add;
657	tx_start_sig <= '1';
658	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
659	elsif txcnt = 3 then -- firmware ID
660	txcnt <= txcnt + 1;
661	tx_data_sig <= FIRMWARE_ID;
662	tx_start_sig <= '1';
663	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
664	elsif txcnt = 4 then -- mirrored command
665	txcnt <= txcnt + 1;
666	tx_data_sig <= "00000011";
667	tx_start_sig <= '1';
668	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
669	elsif txcnt = 5 then -- data: enable pattern A7-0
670	txcnt <= txcnt + 1;
671	tx_data_sig <= enable_array_rs485_in(0)(7 downto 0);
672	tx_start_sig <= '1';
673	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
674	elsif txcnt = 6 then -- data: enable pattern A8
675	txcnt <= txcnt + 1;
676	tx_data_sig <= enable_array_rs485_in(0)(15 downto 8);
677	tx_start_sig <= '1';
678	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
679	elsif txcnt = 7 then -- data: enable pattern B7-0
680	txcnt <= txcnt + 1;
681	tx_data_sig <= enable_array_rs485_in(1)(7 downto 0);
682	tx_start_sig <= '1';
683	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
684	elsif txcnt = 8 then -- data: enable pattern B8
685	txcnt <= txcnt + 1;
686	tx_data_sig <= enable_array_rs485_in(1)(15 downto 8);
687	tx_start_sig <= '1';
688	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
689	elsif txcnt = 9 then -- data: enable pattern C7-0
690	txcnt <= txcnt + 1;
691	tx_data_sig <= enable_array_rs485_in(2)(7 downto 0);
692	tx_start_sig <= '1';
693	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
694	elsif txcnt = 10 then -- data: enable pattern C8
695	txcnt <= txcnt + 1;
696	tx_data_sig <= enable_array_rs485_in(2)(15 downto 8);
697	tx_start_sig <= '1';
698	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
699	elsif txcnt = 11 then -- data: enable pattern D7-0
700	txcnt <= txcnt + 1;
701	tx_data_sig <= enable_array_rs485_in(3)(7 downto 0);
702	tx_start_sig <= '1';
703	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
704	elsif txcnt = 12 then -- data: enable pattern D8
705	txcnt <= txcnt + 1;
706	tx_data_sig <= enable_array_rs485_in(3)(15 downto 8);
707	tx_start_sig <= '1';
708	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
709	elsif txcnt < ((RS485_BLOCK_WIDTH / 8) - 2) then -- data: not used
710	txcnt <= txcnt + 1;
711	tx_data_sig <= "00000000";
712	tx_start_sig <= '1';
713	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
714	elsif txcnt = ((RS485_BLOCK_WIDTH / 8) - 2) then -- CRC error counter
715	txcnt <= txcnt + 1;
716	tx_data_sig <= conv_std_logic_vector(crc_error_cnt_sig, 8);
717	tx_start_sig <= '1';
718	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
719	elsif txcnt = ((RS485_BLOCK_WIDTH / 8) - 1) then -- check sum
720	txcnt <= txcnt + 1;
721	tx_data_sig <= crc_sig;
722	tx_start_sig <= '1';
723	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
724	else -- transmission finished
725	txcnt <= 0;
726	reset_crc_sig <= '1';
727	FTU_rs485_control_State <= RECEIVE;
728	end if;
729	else
730	tx_start_sig <= '0';
731	FTU_rs485_control_State <= SET_ENABLE_TRANSMIT;
732	end if;
733
734	when SET_PRESCALING_TRANSMIT =>
735	if tx_busy_sig = '0' then
736	if txcnt = 0 then -- start delimiter
737	txcnt <= txcnt + 1;
738	tx_data_sig <= RS485_START_DELIM;
739	tx_start_sig <= '1';
740	FTU_rs485_control_State <= SET_PRESCALING_TRANSMIT;
741	elsif txcnt = 1 then -- FTM address
742	txcnt <= txcnt + 1;
743	tx_data_sig <= FTM_ADDRESS;
744	tx_start_sig <= '1';
745	FTU_rs485_control_State <= SET_PRESCALING_TRANSMIT;
746	elsif txcnt = 2 then -- board address
747	txcnt <= txcnt + 1;
748	tx_data_sig <= "00" & brd_add;
749	tx_start_sig <= '1';
750	FTU_rs485_control_State <= SET_PRESCALING_TRANSMIT;
751	elsif txcnt = 3 then -- firmware ID
752	txcnt <= txcnt + 1;
753	tx_data_sig <= FIRMWARE_ID;
754	tx_start_sig <= '1';
755	FTU_rs485_control_State <= SET_PRESCALING_TRANSMIT;
756	elsif txcnt = 4 then -- mirrored command
757	txcnt <= txcnt + 1;
758	tx_data_sig <= "00000110";
759	tx_start_sig <= '1';
760	FTU_rs485_control_State <= SET_PRESCALING_TRANSMIT;
761	elsif txcnt = 5 then -- data: prescaling
762	txcnt <= txcnt + 1;
763	tx_data_sig <= prescaling_rs485_in;
764	tx_start_sig <= '1';
765	FTU_rs485_control_State <= SET_PRESCALING_TRANSMIT;
766	elsif txcnt < ((RS485_BLOCK_WIDTH / 8) - 2) then -- data: not used
767	txcnt <= txcnt + 1;
768	tx_data_sig <= "00000000";
769	tx_start_sig <= '1';
770	FTU_rs485_control_State <= SET_PRESCALING_TRANSMIT;
771	elsif txcnt = ((RS485_BLOCK_WIDTH / 8) - 2) then -- CRC error counter
772	txcnt <= txcnt + 1;
773	tx_data_sig <= conv_std_logic_vector(crc_error_cnt_sig, 8);
774	tx_start_sig <= '1';
775	FTU_rs485_control_State <= SET_PRESCALING_TRANSMIT;
776	elsif txcnt = ((RS485_BLOCK_WIDTH / 8) - 1) then -- check sum
777	txcnt <= txcnt + 1;
778	tx_data_sig <= crc_sig;
779	tx_start_sig <= '1';
780	FTU_rs485_control_State <= SET_PRESCALING_TRANSMIT;
781	else -- transmission finished
782	txcnt <= 0;
783	reset_crc_sig <= '1';
784	FTU_rs485_control_State <= RECEIVE;
785	end if;
786	else
787	tx_start_sig <= '0';
788	FTU_rs485_control_State <= SET_PRESCALING_TRANSMIT;
789	end if;
790
791	when READ_RATES_TRANSMIT =>
792	if tx_busy_sig = '0' then
793	if txcnt = 0 then -- start delimiter
794	txcnt <= txcnt + 1;
795	tx_data_sig <= RS485_START_DELIM;
796	tx_start_sig <= '1';
797	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
798	elsif txcnt = 1 then -- FTM address
799	txcnt <= txcnt + 1;
800	tx_data_sig <= FTM_ADDRESS;
801	tx_start_sig <= '1';
802	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
803	elsif txcnt = 2 then -- board address
804	txcnt <= txcnt + 1;
805	tx_data_sig <= "00" & brd_add;
806	tx_start_sig <= '1';
807	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
808	elsif txcnt = 3 then -- firmware ID
809	txcnt <= txcnt + 1;
810	tx_data_sig <= FIRMWARE_ID;
811	tx_start_sig <= '1';
812	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
813	elsif txcnt = 4 then -- mirrored command
814	txcnt <= txcnt + 1;
815	tx_data_sig <= "00000010";
816	tx_start_sig <= '1';
817	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
818	elsif txcnt = 5 then -- data: counter A 7...0
819	txcnt <= txcnt + 1;
820	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(0),32)(7 downto 0);
821	tx_start_sig <= '1';
822	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
823	elsif txcnt = 6 then -- data: counter A 15...8
824	txcnt <= txcnt + 1;
825	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(0),32)(15 downto 8);
826	tx_start_sig <= '1';
827	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
828	elsif txcnt = 7 then -- data: counter A 23...16
829	txcnt <= txcnt + 1;
830	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(0),32)(23 downto 16);
831	tx_start_sig <= '1';
832	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
833	elsif txcnt = 8 then -- data: counter A 31...24
834	txcnt <= txcnt + 1;
835	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(0),32)(31 downto 24);
836	tx_start_sig <= '1';
837	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
838	elsif txcnt = 9 then -- data: counter B 7...0
839	txcnt <= txcnt + 1;
840	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(1),32)(7 downto 0);
841	tx_start_sig <= '1';
842	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
843	elsif txcnt = 10 then -- data: counter B 15...8
844	txcnt <= txcnt + 1;
845	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(1),32)(15 downto 8);
846	tx_start_sig <= '1';
847	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
848	elsif txcnt = 11 then -- data: counter B 23...16
849	txcnt <= txcnt + 1;
850	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(1),32)(23 downto 16);
851	tx_start_sig <= '1';
852	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
853	elsif txcnt = 12 then -- data: counter B 31...24
854	txcnt <= txcnt + 1;
855	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(1),32)(31 downto 24);
856	tx_start_sig <= '1';
857	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
858	elsif txcnt = 13 then -- data: counter C 7...0
859	txcnt <= txcnt + 1;
860	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(2),32)(7 downto 0);
861	tx_start_sig <= '1';
862	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
863	elsif txcnt = 14 then -- data: counter C 15...8
864	txcnt <= txcnt + 1;
865	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(2),32)(15 downto 8);
866	tx_start_sig <= '1';
867	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
868	elsif txcnt = 15 then -- data: counter C 23...16
869	txcnt <= txcnt + 1;
870	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(2),32)(23 downto 16);
871	tx_start_sig <= '1';
872	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
873	elsif txcnt = 16 then -- data: counter C 31...24
874	txcnt <= txcnt + 1;
875	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(2),32)(31 downto 24);
876	tx_start_sig <= '1';
877	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
878	elsif txcnt = 17 then -- data: counter D 7...0
879	txcnt <= txcnt + 1;
880	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(3),32)(7 downto 0);
881	tx_start_sig <= '1';
882	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
883	elsif txcnt = 18 then -- data: counter D 15...8
884	txcnt <= txcnt + 1;
885	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(3),32)(15 downto 8);
886	tx_start_sig <= '1';
887	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
888	elsif txcnt = 19 then -- data: counter D 23...16
889	txcnt <= txcnt + 1;
890	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(3),32)(23 downto 16);
891	tx_start_sig <= '1';
892	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
893	elsif txcnt = 20 then -- data: counter D 31...24
894	txcnt <= txcnt + 1;
895	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(3),32)(31 downto 24);
896	tx_start_sig <= '1';
897	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
898	elsif txcnt = 21 then -- data: trigger counter 7...0
899	txcnt <= txcnt + 1;
900	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(4),32)(7 downto 0);
901	tx_start_sig <= '1';
902	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
903	elsif txcnt = 22 then -- data: trigger counter 15...8
904	txcnt <= txcnt + 1;
905	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(4),32)(15 downto 8);
906	tx_start_sig <= '1';
907	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
908	elsif txcnt = 23 then -- data: trigger counter 23...16
909	txcnt <= txcnt + 1;
910	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(4),32)(23 downto 16);
911	tx_start_sig <= '1';
912	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
913	elsif txcnt = 24 then -- data: trigger counter 31...24
914	txcnt <= txcnt + 1;
915	tx_data_sig <= conv_std_logic_vector(rate_array_rs485(4),32)(31 downto 24);
916	tx_start_sig <= '1';
917	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
918	elsif txcnt = 25 then -- data: overflow register
919	txcnt <= txcnt + 1;
920	tx_data_sig <= overflow_array_rs485_in;
921	tx_start_sig <= '1';
922	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
923	elsif txcnt = ((RS485_BLOCK_WIDTH / 8) - 2) then -- CRC error counter
924	txcnt <= txcnt + 1;
925	tx_data_sig <= conv_std_logic_vector(crc_error_cnt_sig, 8);
926	tx_start_sig <= '1';
927	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
928	elsif txcnt = ((RS485_BLOCK_WIDTH / 8) - 1) then -- check sum
929	txcnt <= txcnt + 1;
930	tx_data_sig <= crc_sig;
931	tx_start_sig <= '1';
932	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
933	else -- transmission finished
934	txcnt <= 0;
935	reset_crc_sig <= '1';
936	FTU_rs485_control_State <= RECEIVE;
937	end if;
938	else
939	tx_start_sig <= '0';
940	FTU_rs485_control_State <= READ_RATES_TRANSMIT;
941	end if;
942
943	when READ_DAC_TRANSMIT =>
944	if tx_busy_sig = '0' then
945	if txcnt = 0 then -- start delimiter
946	txcnt <= txcnt + 1;
947	tx_data_sig <= RS485_START_DELIM;
948	tx_start_sig <= '1';
949	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
950	elsif txcnt = 1 then -- FTM address
951	txcnt <= txcnt + 1;
952	tx_data_sig <= FTM_ADDRESS;
953	tx_start_sig <= '1';
954	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
955	elsif txcnt = 2 then -- board address
956	txcnt <= txcnt + 1;
957	tx_data_sig <= "00" & brd_add;
958	tx_start_sig <= '1';
959	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
960	elsif txcnt = 3 then -- firmware ID
961	txcnt <= txcnt + 1;
962	tx_data_sig <= FIRMWARE_ID;
963	tx_start_sig <= '1';
964	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
965	elsif txcnt = 4 then -- mirrored command
966	txcnt <= txcnt + 1;
967	tx_data_sig <= "00000001";
968	tx_start_sig <= '1';
969	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
970	elsif txcnt = 5 then -- data: DAC A low
971	txcnt <= txcnt + 1;
972	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(0),16)(7 downto 0);
973	tx_start_sig <= '1';
974	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
975	elsif txcnt = 6 then -- data: DAC A high
976	txcnt <= txcnt + 1;
977	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(0),16)(15 downto 8);
978	tx_start_sig <= '1';
979	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
980	elsif txcnt = 7 then -- data: DAC B low
981	txcnt <= txcnt + 1;
982	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(1),16)(7 downto 0);
983	tx_start_sig <= '1';
984	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
985	elsif txcnt = 8 then -- data: DAC B high
986	txcnt <= txcnt + 1;
987	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(1),16)(15 downto 8);
988	tx_start_sig <= '1';
989	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
990	elsif txcnt = 9 then -- data: DAC C low
991	txcnt <= txcnt + 1;
992	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(2),16)(7 downto 0);
993	tx_start_sig <= '1';
994	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
995	elsif txcnt = 10 then -- data: DAC C high
996	txcnt <= txcnt + 1;
997	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(2),16)(15 downto 8);
998	tx_start_sig <= '1';
999	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
1000	elsif txcnt = 11 then -- data: DAC D low
1001	txcnt <= txcnt + 1;
1002	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(3),16)(7 downto 0);
1003	tx_start_sig <= '1';
1004	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
1005	elsif txcnt = 12 then -- data: DAC D high
1006	txcnt <= txcnt + 1;
1007	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(3),16)(15 downto 8);
1008	tx_start_sig <= '1';
1009	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
1010	elsif txcnt = 13 then -- data: DAC E low
1011	txcnt <= txcnt + 1;
1012	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(7),16)(7 downto 0);
1013	tx_start_sig <= '1';
1014	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
1015	elsif txcnt = 14 then -- data: DAC E high
1016	txcnt <= txcnt + 1;
1017	tx_data_sig <= conv_std_logic_vector(dac_array_rs485_in(7),16)(15 downto 8);
1018	tx_start_sig <= '1';
1019	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
1020	elsif txcnt < ((RS485_BLOCK_WIDTH / 8) - 2) then -- data: not used
1021	txcnt <= txcnt + 1;
1022	tx_data_sig <= "00000000";
1023	tx_start_sig <= '1';
1024	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
1025	elsif txcnt = ((RS485_BLOCK_WIDTH / 8) - 2) then -- CRC error counter
1026	txcnt <= txcnt + 1;
1027	tx_data_sig <= conv_std_logic_vector(crc_error_cnt_sig, 8);
1028	tx_start_sig <= '1';
1029	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
1030	elsif txcnt = ((RS485_BLOCK_WIDTH / 8) - 1) then -- check sum
1031	txcnt <= txcnt + 1;
1032	tx_data_sig <= crc_sig;
1033	tx_start_sig <= '1';
1034	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
1035	else -- transmission finished
1036	txcnt <= 0;
1037	reset_crc_sig <= '1';
1038	FTU_rs485_control_State <= RECEIVE;
1039	end if;
1040	else
1041	tx_start_sig <= '0';
1042	FTU_rs485_control_State <= READ_DAC_TRANSMIT;
1043	end if;
1044
1045	when READ_ENABLE_TRANSMIT =>
1046	if tx_busy_sig = '0' then
1047	if txcnt = 0 then -- start delimiter
1048	txcnt <= txcnt + 1;
1049	tx_data_sig <= RS485_START_DELIM;
1050	tx_start_sig <= '1';
1051	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
1052	elsif txcnt = 1 then -- FTM address
1053	txcnt <= txcnt + 1;
1054	tx_data_sig <= FTM_ADDRESS;
1055	tx_start_sig <= '1';
1056	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
1057	elsif txcnt = 2 then -- board address
1058	txcnt <= txcnt + 1;
1059	tx_data_sig <= "00" & brd_add;
1060	tx_start_sig <= '1';
1061	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
1062	elsif txcnt = 3 then -- firmware ID
1063	txcnt <= txcnt + 1;
1064	tx_data_sig <= FIRMWARE_ID;
1065	tx_start_sig <= '1';
1066	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
1067	elsif txcnt = 4 then -- mirrored command
1068	txcnt <= txcnt + 1;
1069	tx_data_sig <= "00000100";
1070	tx_start_sig <= '1';
1071	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
1072	elsif txcnt = 5 then -- data: enable pattern A7-0
1073	txcnt <= txcnt + 1;
1074	tx_data_sig <= enable_array_rs485_in(0)(7 downto 0);
1075	tx_start_sig <= '1';
1076	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
1077	elsif txcnt = 6 then -- data: enable pattern A8
1078	txcnt <= txcnt + 1;
1079	tx_data_sig <= enable_array_rs485_in(0)(15 downto 8);
1080	tx_start_sig <= '1';
1081	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
1082	elsif txcnt = 7 then -- data: enable pattern B7-0
1083	txcnt <= txcnt + 1;
1084	tx_data_sig <= enable_array_rs485_in(1)(7 downto 0);
1085	tx_start_sig <= '1';
1086	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
1087	elsif txcnt = 8 then -- data: enable pattern B8
1088	txcnt <= txcnt + 1;
1089	tx_data_sig <= enable_array_rs485_in(1)(15 downto 8);
1090	tx_start_sig <= '1';
1091	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
1092	elsif txcnt = 9 then -- data: enable pattern C7-0
1093	txcnt <= txcnt + 1;
1094	tx_data_sig <= enable_array_rs485_in(2)(7 downto 0);
1095	tx_start_sig <= '1';
1096	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
1097	elsif txcnt = 10 then -- data: enable pattern C8
1098	txcnt <= txcnt + 1;
1099	tx_data_sig <= enable_array_rs485_in(2)(15 downto 8);
1100	tx_start_sig <= '1';
1101	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
1102	elsif txcnt = 11 then -- data: enable pattern D7-0
1103	txcnt <= txcnt + 1;
1104	tx_data_sig <= enable_array_rs485_in(3)(7 downto 0);
1105	tx_start_sig <= '1';
1106	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
1107	elsif txcnt = 12 then -- data: enable pattern D8
1108	txcnt <= txcnt + 1;
1109	tx_data_sig <= enable_array_rs485_in(3)(15 downto 8);
1110	tx_start_sig <= '1';
1111	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
1112	elsif txcnt < ((RS485_BLOCK_WIDTH / 8) - 2) then -- data: not used
1113	txcnt <= txcnt + 1;
1114	tx_data_sig <= "00000000";
1115	tx_start_sig <= '1';
1116	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
1117	elsif txcnt = ((RS485_BLOCK_WIDTH / 8) - 2) then -- CRC error counter
1118	txcnt <= txcnt + 1;
1119	tx_data_sig <= conv_std_logic_vector(crc_error_cnt_sig, 8);
1120	tx_start_sig <= '1';
1121	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
1122	elsif txcnt = ((RS485_BLOCK_WIDTH / 8) - 1) then -- check sum
1123	txcnt <= txcnt + 1;
1124	tx_data_sig <= crc_sig;
1125	tx_start_sig <= '1';
1126	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
1127	else -- transmission finished
1128	txcnt <= 0;
1129	reset_crc_sig <= '1';
1130	FTU_rs485_control_State <= RECEIVE;
1131	end if;
1132	else
1133	tx_start_sig <= '0';
1134	FTU_rs485_control_State <= READ_ENABLE_TRANSMIT;
1135	end if;
1136
1137	when READ_PRESCALING_TRANSMIT =>
1138	if tx_busy_sig = '0' then
1139	if txcnt = 0 then -- start delimiter
1140	txcnt <= txcnt + 1;
1141	tx_data_sig <= RS485_START_DELIM;
1142	tx_start_sig <= '1';
1143	FTU_rs485_control_State <= READ_PRESCALING_TRANSMIT;
1144	elsif txcnt = 1 then -- FTM address
1145	txcnt <= txcnt + 1;
1146	tx_data_sig <= FTM_ADDRESS;
1147	tx_start_sig <= '1';
1148	FTU_rs485_control_State <= READ_PRESCALING_TRANSMIT;
1149	elsif txcnt = 2 then -- board address
1150	txcnt <= txcnt + 1;
1151	tx_data_sig <= "00" & brd_add;
1152	tx_start_sig <= '1';
1153	FTU_rs485_control_State <= READ_PRESCALING_TRANSMIT;
1154	elsif txcnt = 3 then -- firmware ID
1155	txcnt <= txcnt + 1;
1156	tx_data_sig <= FIRMWARE_ID;
1157	tx_start_sig <= '1';
1158	FTU_rs485_control_State <= READ_PRESCALING_TRANSMIT;
1159	elsif txcnt = 4 then -- mirrored command
1160	txcnt <= txcnt + 1;
1161	tx_data_sig <= "00000111";
1162	tx_start_sig <= '1';
1163	FTU_rs485_control_State <= READ_PRESCALING_TRANSMIT;
1164	elsif txcnt = 5 then -- data: prescaling
1165	txcnt <= txcnt + 1;
1166	tx_data_sig <= prescaling_rs485_in;
1167	tx_start_sig <= '1';
1168	FTU_rs485_control_State <= READ_PRESCALING_TRANSMIT;
1169	elsif txcnt = 6 then -- data: overflow register
1170	txcnt <= txcnt + 1;
1171	tx_data_sig <= overflow_array_rs485_in;
1172	tx_start_sig <= '1';
1173	FTU_rs485_control_State <= READ_PRESCALING_TRANSMIT;
1174	elsif txcnt < ((RS485_BLOCK_WIDTH / 8) - 2) then -- data: not used
1175	txcnt <= txcnt + 1;
1176	tx_data_sig <= "00000000";
1177	tx_start_sig <= '1';
1178	FTU_rs485_control_State <= READ_PRESCALING_TRANSMIT;
1179	elsif txcnt = ((RS485_BLOCK_WIDTH / 8) - 2) then -- CRC error counter
1180	txcnt <= txcnt + 1;
1181	tx_data_sig <= conv_std_logic_vector(crc_error_cnt_sig, 8);
1182	tx_start_sig <= '1';
1183	FTU_rs485_control_State <= READ_PRESCALING_TRANSMIT;
1184	elsif txcnt = ((RS485_BLOCK_WIDTH / 8) - 1) then -- check sum
1185	txcnt <= txcnt + 1;
1186	tx_data_sig <= crc_sig;
1187	tx_start_sig <= '1';
1188	FTU_rs485_control_State <= READ_PRESCALING_TRANSMIT;
1189	else -- transmission finished
1190	txcnt <= 0;
1191	reset_crc_sig <= '1';
1192	FTU_rs485_control_State <= RECEIVE;
1193	end if;
1194	else
1195	tx_start_sig <= '0';
1196	FTU_rs485_control_State <= READ_PRESCALING_TRANSMIT;
1197	end if;
1198
1199	when PING_PONG_TRANSMIT =>
1200	crc_enable_sig <= '0';
1201	if tx_busy_sig = '0' then
1202	if txcnt = 0 then -- start delimiter
1203	txcnt <= txcnt + 1;
1204	tx_data_sig <= RS485_START_DELIM;
1205	tx_start_sig <= '1';
1206	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
1207	elsif txcnt = 1 then -- FTM address
1208	txcnt <= txcnt + 1;
1209	tx_data_sig <= FTM_ADDRESS;
1210	tx_start_sig <= '1';
1211	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
1212	elsif txcnt = 2 then -- board address
1213	txcnt <= txcnt + 1;
1214	tx_data_sig <= "00" & brd_add;
1215	tx_start_sig <= '1';
1216	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
1217	elsif txcnt = 3 then -- firmware ID
1218	txcnt <= txcnt + 1;
1219	tx_data_sig <= FIRMWARE_ID;
1220	tx_start_sig <= '1';
1221	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
1222	elsif txcnt = 4 then -- mirrored command
1223	txcnt <= txcnt + 1;
1224	tx_data_sig <= "00000101";
1225	tx_start_sig <= '1';
1226	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
1227	elsif txcnt = 5 then -- data: device DNA
1228	txcnt <= txcnt + 1;
1229	tx_data_sig <= dna(7 downto 0);
1230	tx_start_sig <= '1';
1231	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
1232	elsif txcnt = 6 then -- data: device DNA
1233	txcnt <= txcnt + 1;
1234	tx_data_sig <= dna(15 downto 8);
1235	tx_start_sig <= '1';
1236	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
1237	elsif txcnt = 7 then -- data: device DNA
1238	txcnt <= txcnt + 1;
1239	tx_data_sig <= dna(23 downto 16);
1240	tx_start_sig <= '1';
1241	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
1242	elsif txcnt = 8 then -- data: device DNA
1243	txcnt <= txcnt + 1;
1244	tx_data_sig <= dna(31 downto 24);
1245	tx_start_sig <= '1';
1246	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
1247	elsif txcnt = 9 then -- data: device DNA
1248	txcnt <= txcnt + 1;
1249	tx_data_sig <= dna(39 downto 32);
1250	tx_start_sig <= '1';
1251	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
1252	elsif txcnt = 10 then -- data: device DNA
1253	txcnt <= txcnt + 1;
1254	tx_data_sig <= dna(47 downto 40);
1255	tx_start_sig <= '1';
1256	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
1257	elsif txcnt = 11 then -- data: device DNA
1258	txcnt <= txcnt + 1;
1259	tx_data_sig <= dna(55 downto 48);
1260	tx_start_sig <= '1';
1261	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
1262	elsif txcnt = 12 then -- data: device DNA
1263	txcnt <= txcnt + 1;
1264	tx_data_sig <= dna(63 downto 56);
1265	tx_start_sig <= '1';
1266	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
1267	elsif txcnt < ((RS485_BLOCK_WIDTH / 8) - 2) then -- data: not used
1268	txcnt <= txcnt + 1;
1269	tx_data_sig <= "00000000";
1270	tx_start_sig <= '1';
1271	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
1272	elsif txcnt = ((RS485_BLOCK_WIDTH / 8) - 2) then -- CRC error counter
1273	txcnt <= txcnt + 1;
1274	tx_data_sig <= conv_std_logic_vector(crc_error_cnt_sig, 8);
1275	tx_start_sig <= '1';
1276	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
1277	elsif txcnt = ((RS485_BLOCK_WIDTH / 8) - 1) then -- check sum
1278	txcnt <= txcnt + 1;
1279	tx_data_sig <= crc_sig;
1280	tx_start_sig <= '1';
1281	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
1282	else -- transmission finished
1283	txcnt <= 0;
1284	reset_crc_sig <= '1';
1285	FTU_rs485_control_State <= RECEIVE;
1286	end if;
1287	else
1288	tx_start_sig <= '0';
1289	FTU_rs485_control_State <= PING_PONG_TRANSMIT;
1290	end if;
1291
1292	end case;
1293	end if;
1294	end process FTU_rs485_control_FSM;
1295
1296	end Behavioral;
1297

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source: firmware/FTU/rs485/FTU_rs485_control.vhd@ 13361

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