-
Notifications
You must be signed in to change notification settings - Fork 0
/
PLL.c
206 lines (197 loc) · 6.64 KB
/
PLL.c
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
// PLL.c
// Runs on LM4F120/TM4C123
// A software function to change the bus frequency using the PLL.
// Daniel Valvano
// May 2, 2015
/* This example accompanies the book
"Embedded Systems: Real Time Interfacing to Arm Cortex M Microcontrollers",
ISBN: 978-1463590154, Jonathan Valvano, copyright (c) 2015
Program 2.10, Figure 2.37
Copyright 2015 by Jonathan W. Valvano, [email protected]
You may use, edit, run or distribute this file
as long as the above copyright notice remains
THIS SOFTWARE IS PROVIDED "AS IS". NO WARRANTIES, WHETHER EXPRESS, IMPLIED
OR STATUTORY, INCLUDING, BUT NOT LIMITED TO, IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE APPLY TO THIS SOFTWARE.
VALVANO SHALL NOT, IN ANY CIRCUMSTANCES, BE LIABLE FOR SPECIAL, INCIDENTAL,
OR CONSEQUENTIAL DAMAGES, FOR ANY REASON WHATSOEVER.
For more information about my classes, my research, and my books, see
http://users.ece.utexas.edu/~valvano/
*/
#include <stdint.h>
#include "PLL.h"
#include "../inc/tm4c123gh6pm.h"
// The #define statement SYSDIV2 in PLL.h
// initializes the PLL to the desired frequency.
// bus frequency is 400MHz/(SYSDIV2+1) = 400MHz/(7+1) = 50 MHz
// see the table at the end of this file
#define SYSCTL_RIS_PLLLRIS 0x00000040 // PLL Lock Raw Interrupt Status
#define SYSCTL_RCC_XTAL_M 0x000007C0 // Crystal Value
#define SYSCTL_RCC_XTAL_6MHZ 0x000002C0 // 6 MHz Crystal
#define SYSCTL_RCC_XTAL_8MHZ 0x00000380 // 8 MHz Crystal
#define SYSCTL_RCC_XTAL_16MHZ 0x00000540 // 16 MHz Crystal
#define SYSCTL_RCC2_USERCC2 0x80000000 // Use RCC2
#define SYSCTL_RCC2_DIV400 0x40000000 // Divide PLL as 400 MHz vs. 200
// MHz
#define SYSCTL_RCC2_SYSDIV2_M 0x1F800000 // System Clock Divisor 2
#define SYSCTL_RCC2_SYSDIV2LSB 0x00400000 // Additional LSB for SYSDIV2
#define SYSCTL_RCC2_PWRDN2 0x00002000 // Power-Down PLL 2
#define SYSCTL_RCC2_BYPASS2 0x00000800 // PLL Bypass 2
#define SYSCTL_RCC2_OSCSRC2_M 0x00000070 // Oscillator Source 2
#define SYSCTL_RCC2_OSCSRC2_MO 0x00000000 // MOSC
// configure the system to get its clock from the PLL
// SYSDIV = 400/freq -1
// bus frequency is 400MHz/(SYSDIV+1)
void PLL_Init(uint32_t freq){
// 0) configure the system to use RCC2 for advanced features
// such as 400 MHz PLL and non-integer System Clock Divisor
SYSCTL_RCC2_R |= SYSCTL_RCC2_USERCC2;
// 1) bypass PLL while initializing
SYSCTL_RCC2_R |= SYSCTL_RCC2_BYPASS2;
// 2) select the crystal value and oscillator source
SYSCTL_RCC_R &= ~SYSCTL_RCC_XTAL_M; // clear XTAL field
SYSCTL_RCC_R += SYSCTL_RCC_XTAL_16MHZ;// configure for 16 MHz crystal
SYSCTL_RCC2_R &= ~SYSCTL_RCC2_OSCSRC2_M;// clear oscillator source field
SYSCTL_RCC2_R += SYSCTL_RCC2_OSCSRC2_MO;// configure for main oscillator source
// 3) activate PLL by clearing PWRDN
SYSCTL_RCC2_R &= ~SYSCTL_RCC2_PWRDN2;
// 4) set the desired system divider and the system divider least significant bit
SYSCTL_RCC2_R |= SYSCTL_RCC2_DIV400; // use 400 MHz PLL
SYSCTL_RCC2_R = (SYSCTL_RCC2_R&~0x1FC00000) // clear system clock divider field
+ (freq<<22); // configure for 80 MHz clock
// 5) wait for the PLL to lock by polling PLLLRIS
while((SYSCTL_RIS_R&SYSCTL_RIS_PLLLRIS)==0){};
// 6) enable use of PLL by clearing BYPASS
SYSCTL_RCC2_R &= ~SYSCTL_RCC2_BYPASS2;
}
/*
SYSDIV2 Divisor Clock (MHz)
0 1 reserved
1 2 reserved
2 3 reserved
3 4 reserved
4 5 80.000
5 6 66.667
6 7 reserved
7 8 50.000
8 9 44.444
9 10 40.000
10 11 36.364
11 12 33.333
12 13 30.769
13 14 28.571
14 15 26.667
15 16 25.000
16 17 23.529
17 18 22.222
18 19 21.053
19 20 20.000
20 21 19.048
21 22 18.182
22 23 17.391
23 24 16.667
24 25 16.000
25 26 15.385
26 27 14.815
27 28 14.286
28 29 13.793
29 30 13.333
30 31 12.903
31 32 12.500
32 33 12.121
33 34 11.765
34 35 11.429
35 36 11.111
36 37 10.811
37 38 10.526
38 39 10.256
39 40 10.000
40 41 9.756
41 42 9.524
42 43 9.302
43 44 9.091
44 45 8.889
45 46 8.696
46 47 8.511
47 48 8.333
48 49 8.163
49 50 8.000
50 51 7.843
51 52 7.692
52 53 7.547
53 54 7.407
54 55 7.273
55 56 7.143
56 57 7.018
57 58 6.897
58 59 6.780
59 60 6.667
60 61 6.557
61 62 6.452
62 63 6.349
63 64 6.250
64 65 6.154
65 66 6.061
66 67 5.970
67 68 5.882
68 69 5.797
69 70 5.714
70 71 5.634
71 72 5.556
72 73 5.479
73 74 5.405
74 75 5.333
75 76 5.263
76 77 5.195
77 78 5.128
78 79 5.063
79 80 5.000
80 81 4.938
81 82 4.878
82 83 4.819
83 84 4.762
84 85 4.706
85 86 4.651
86 87 4.598
87 88 4.545
88 89 4.494
89 90 4.444
90 91 4.396
91 92 4.348
92 93 4.301
93 94 4.255
94 95 4.211
95 96 4.167
96 97 4.124
97 98 4.082
98 99 4.040
99 100 4.000
100 101 3.960
101 102 3.922
102 103 3.883
103 104 3.846
104 105 3.810
105 106 3.774
106 107 3.738
107 108 3.704
108 109 3.670
109 110 3.636
110 111 3.604
111 112 3.571
112 113 3.540
113 114 3.509
114 115 3.478
115 116 3.448
116 117 3.419
117 118 3.390
118 119 3.361
119 120 3.333
120 121 3.306
121 122 3.279
122 123 3.252
123 124 3.226
124 125 3.200
125 126 3.175
126 127 3.150
127 128 3.125
*/