New_Master_Funfa

1. /*
2. Basic_Master - example using ModbusMaster library
3. This file is part of ModbusMaster.
4.  
5. ModbusMaster is free software: you can redistribute it and/or modify
6. it under the terms of the GNU General Public License as published by
7. the Free Software Foundation, either version 3 of the License, or
8. (at your option) any later version.
9.  
10. ModbusMaster is distributed in the hope that it will be useful,
11. but WITHOUT ANY WARRANTY; without even the implied warranty of
12. MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13. GNU General Public License for more details.
14.  
15. You should have received a copy of the GNU General Public License
16. along with ModbusMaster. If not, see <http://www.gnu.org/licenses/>.
17.  
18. Written by Doc Walker (Rx)
19. Copyright © 2009-2013 Doc Walker <4-20ma at wvfans dot net>
20. */
21.  
22. #include <ModbusMaster_Mod.h>
23.  
24. // instantiate ModbusMaster object as slave ID 2
25. // defaults to serial port 0 since no port was specified
26. ModbusMaster node(1,2,7); // 1 = Serial 2 = slave 7 = pino de Ema
27. byte Start = 0;
28. byte Regs = 4;
29. byte flag = 0;
30. //-------------------------------------------------------
31. void setup()
32. {
33. Serial.begin(9600);
34. // initialize Modbus communication baud rate
35. node.begin(9600); // era 4800
36. }
37. //-----------------------------------------------
38. void loop()
39. {
40. static uint32_t i;
41. uint8_t j, result;
42. uint16_t data[6];
43.  
44.  
45. if (flag == 0)
46. {
47. // Serial.println("Digite o inicio: ");
48. if(Serial.available()) // Se algo for recebido pela serial do módulo bluetooth
49. {
50. Start = Serial.parseInt();
51. Serial.println(Start);
52. flag = 1;
53. }
54. }
55. if (flag == 1)
56. {
57. Serial.println("Digite qtos Regs: ");
58. while(flag == 1)
59. {
60. if(Serial.available()) // Se algo for recebido pela serial do módulo bluetooth
61. {
62. Regs = Serial.parseInt();
63. Serial.println(Regs);
64. flag = 0;
65. }
66. }
67. }
68.  
69. /* // set word 0 of TX buffer to least-significant word of counter (bits 15..0)
70. node.setTransmitBuffer(0, lowWord(i));
71. // set word 1 of TX buffer to most-significant word of counter (bits 31..16)
72. node.setTransmitBuffer(1, highWord(i));
73.  
74. // slave: write TX buffer to (2) 16-bit registers starting at register 0
75. result = node.writeMultipleRegisters(0, 1);
76. i++;
77.  
78.  
79. // set word 0 of TX buffer to least-significant word of counter (bits 15..0)
80. node.setTransmitBuffer(0, lowWord(i));
81. // set word 1 of TX buffer to most-significant word of counter (bits 31..16)
82. node.setTransmitBuffer(1, highWord(i));
83.  
84. // slave: write TX buffer to (2) 16-bit registers starting at register 0
85. result = node.writeMultipleRegisters(1, 1);
86. i++;
87.  
88.  
89. // set word 0 of TX buffer to least-significant word of counter (bits 15..0)
90. node.setTransmitBuffer(0, lowWord(i));
91. // set word 1 of TX buffer to most-significant word of counter (bits 31..16)
92. node.setTransmitBuffer(1, highWord(i));
93.  
94. // slave: write TX buffer to (2) 16-bit registers starting at register 0
95. result = node.writeMultipleRegisters(2, 1);
96. i++;
97.  
98.  
99. // set word 0 of TX buffer to least-significant word of counter (bits 15..0)
100. node.setTransmitBuffer(0, lowWord(i));
101. // set word 1 of TX buffer to most-significant word of counter (bits 31..16)
102. node.setTransmitBuffer(1, highWord(i));
103.  
104. // slave: write TX buffer to (2) 16-bit registers starting at register 0
105. result = node.writeMultipleRegisters(3, 1);
106. i++;
107.  
108. */
109. // slave: read (6) 16-bit registers starting at register 2 to RX buffer
110. // result = node.readHoldingRegisters(Start, Regs);
111. result = node.readHoldingRegisters(Start, Regs);
112. Serial.print("Result ");
113. Serial.println(result);
114. // do something with data if read is successful
115. if (result == node.ku8MBSuccess)
116. {
117. for (j = 0; j < Regs; j++)
118. {
119. data[j] = node.getResponseBuffer(j);
120. Serial.println(data[j]);
121. }
122. }
123. //delay(500);
124. }