source: FPGA/FTU/old_design/spi_interface/spi_rcv_shift_reg_16.vhd@ 1889

Last change on this file since 1889 was 156, checked in by qweitzel, 15 years ago
First check-in of VHDL code for FTU: counters, dcm, spi
File size: 6.5 KB
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1---------------------------------------------------------------------------------------------
2---------------------------------------------------------------------------------------------
3-- File: spi_rcv_shift_reg_16.vhd
4--
5--
6-- Original file: spi_rcv_shift_reg.vhd
7--
8-- Created: 9-6-00 ALS
9-- SPI shift register that shifts data in on MISO. No data is shifted out.
10-- This is an 8-bit register clocked on the outgoing SCK. The data input
11-- on the MISO pin is first clocked by two registers - one on the rising edge
12-- of SCK and one on the falling edge of SCK. The data selected to be input into the
13-- shift register is determined by a control bit in the control register (RCV_CPOL).
14-- When all bits have been shifted in, the data is loaded into the uC SPI Receive Data
15-- register.
16--
17-- Revised: 9-11-00 ALS
18-- Revised: 10-17-00 ALS
19-- Revised: 12-12-02 JRH
20
21---------------------------------------------------------------------------------------------
22---------------------------------------------------------------------------------------------
23-- Modified from 8 to 16 bit word size by Patrick Vogler
24-- 18th November 2009
25--
26-- Modifications are marked by: *Mod: <modification>
27--
28-- Cleaned up by Quirin Weitzel
29-- 21th January 2010
30---------------------------------------------------------------------------------------------
31---------------------------------------------------------------------------------------------
32library IEEE;
33use IEEE.std_logic_1164.all;
34use IEEE.std_logic_arith.all;
35
36entity spi_rcv_shift_reg is
37 port(
38 -- shift control and data
39 miso : in STD_LOGIC; -- Serial data in
40 shift_en : in STD_LOGIC; -- Active low shift enable
41
42 -- parallel data out
43 data_out : out STD_LOGIC_VECTOR (15 downto 0); -- Shifted data, *Mod: 15 instead of 7, parallel output extended from 8 to 16 bit
44
45 rcv_load : out std_logic; -- load signal to uC register
46
47 -- rising edge and falling SCK edges
48 sck_re : in std_logic; -- rising edge of SCK
49 sck_fe : in std_logic; -- falling edge of SCK
50
51 -- uC configuration for receive clock polarity
52 rcv_cpol : in STD_LOGIC; -- receive clock polarity
53 cpol : in std_logic; -- spi clock polarity
54
55 ss_in_int : in STD_LOGIC; -- signal indicating another master is on the bus
56
57 reset : in STD_LOGIC; -- reset
58 sclk : in STD_LOGIC -- clock
59 );
60end spi_rcv_shift_reg;
61
62architecture DEFINITION of spi_rcv_shift_reg is
63
64 --******************************** Constants ***********************
65 constant RESET_ACTIVE : std_logic := '0';
66
67 --******************************** Signals *************************
68 signal data_int : STD_LOGIC_VECTOR (15 downto 0);-- *Mod: 15 instead of 7, extension form 8 to 16 bit
69 signal shift_in : STD_LOGIC; -- data to be shifted in
70 signal miso_neg : STD_LOGIC; -- data clocked on neg SCK
71 signal miso_pos : STD_LOGIC; -- data clocked on pos SCK
72
73 signal rcv_bitcnt_int : unsigned(2 downto 0); -- internal bit count
74 signal rcv_bitcnt : std_logic_vector(2 downto 0); -- bit count
75
76begin
77
78 --******************************** SPI Receive Shift Register ***********************
79 -- This shift register is clocked on the SCK output from the CPLD
80
81 rcv_shift_reg: process(sclk, reset, ss_in_int)
82 begin
83 -- Clear output register
84 if (reset = RESET_ACTIVE or ss_in_int = '0') then
85 data_int <= (others => '0');
86
87 -- On rising edge of spi clock, shift in data
88 elsif sclk'event and sclk = '1' then
89
90 -- If shift enable is high
91 if shift_en = '0' then
92
93 -- Shift the data
94 data_int <= data_int(14 downto 0) & shift_in; -- *Mod: 14 instead of 6
95
96 end if;
97
98 end if;
99
100 end process;
101
102 --******************************** MISO Input Registers ***********************
103 -- The MISO signal is clocked on both the rising and falling edges of SCK. The output
104 -- of both these registers is then multiplexed with the RCV_CPOL control bit choosing
105 -- which data is the valid data for the system. This data is then the input to the
106 -- shift register.
107
108 -- SCK rising edge register
109 inreg_pos: process (sclk, reset, ss_in_int)
110 begin
111 if reset = RESET_ACTIVE or ss_in_int = '0' then
112 miso_pos <= '0';
113 elsif sclk'event and sclk = '1' then
114 miso_pos <= miso;
115 end if;
116 end process;
117
118 -- SCK falling edge register
119 inreg_neg: process (sclk, reset, ss_in_int)
120 begin
121 if reset = RESET_ACTIVE or ss_in_int = '0' then
122 miso_neg <= '0';
123 elsif sclk'event and sclk = '0' then
124 miso_neg <= miso;
125 end if;
126 end process;
127
128 -- RCV_CPOL multiplexor to determine shift in data
129 miso_mux: process (miso_neg, miso_pos, rcv_cpol)
130 begin
131 if rcv_cpol = '1' then
132 shift_in <= miso_pos;
133 else
134 shift_in <= miso_neg;
135 end if;
136 end process;
137
138 --******************************** Parallel Data Out ***********************
139
140 data_out <= data_int(14 downto 0) & shift_in; --*Mod: 14 instead of 6
141
142 --******************************** Receive Bit Counter ***********************
143 -- Count bits loading into the SPI receive shift register based on SCK
144 -- assert RCV_LOAD when bit count is 0
145 RCV_BITCNT_PROC: process(sclk, reset, shift_en)
146 begin
147 if reset = RESET_ACTIVE or shift_en = '1' then
148 rcv_bitcnt_int <= (others => '0');
149 elsif sclk'event and sclk = '1' then
150 rcv_bitcnt_int <= rcv_bitcnt_int + 1;
151 end if;
152 end process;
153
154 rcv_bitcnt <= STD_LOGIC_VECTOR(rcv_bitcnt_int);
155
156 --******************************** Receive Load ***********************
157 -- If RCV_CPOL = '0', want to assert RCV_LOAD with falling edge of SCK
158 -- If RCV_CPOL = '1', want to assert RCV_LOAD with rising edge of SCK
159 -- only want RCV_LOAD to be 1 system clock pulse in width
160 rcv_load <= '1' when ( shift_en = '0' and
161 ( (rcv_bitcnt="000" and cpol='0' and rcv_cpol='1' and sck_re='1')
162 or (rcv_bitcnt="000" and cpol='1' and rcv_cpol='1' and sck_re='1')
163 or (rcv_bitcnt="000" and cpol='0' and rcv_cpol='0' and sck_fe='1')
164 or (rcv_bitcnt="111" and cpol='1' and rcv_cpol='0' and sck_fe='1') )
165 )
166 else '0';
167
168end DEFINITION;
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