Penn Electric
/
MAX518
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MAX518.cpp@4:83bdb4efea8b, 2012-12-22 (annotated)
- Committer:
- PennElectric
- Date:
- Sat Dec 22 02:08:11 2012 +0000
- Revision:
- 4:83bdb4efea8b
- Parent:
- 3:96d5489ff1ab
- Child:
- 6:8857ccc9323d
Updated auto doc messages
Who changed what in which revision?
| User | Revision | Line number | New contents of line |
|---|---|---|---|
| PennElectric | 4:83bdb4efea8b | 1 | /* Copyright (c) <2012> <P. Patel>, MIT License |
| PennElectric | 4:83bdb4efea8b | 2 | * |
| PennElectric | 4:83bdb4efea8b | 3 | * Permission is hereby granted, free of charge, to any person obtaining a copy of this software |
| PennElectric | 4:83bdb4efea8b | 4 | * and associated documentation files (the "Software"), to deal in the Software without restriction, |
| PennElectric | 4:83bdb4efea8b | 5 | * including without limitation the rights to use, copy, modify, merge, publish, distribute, |
| PennElectric | 4:83bdb4efea8b | 6 | * sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is |
| PennElectric | 4:83bdb4efea8b | 7 | * furnished to do so, subject to the following conditions: |
| PennElectric | 4:83bdb4efea8b | 8 | * |
| PennElectric | 4:83bdb4efea8b | 9 | * The above copyright notice and this permission notice shall be included in all copies or |
| PennElectric | 4:83bdb4efea8b | 10 | * substantial portions of the Software. |
| PennElectric | 4:83bdb4efea8b | 11 | * |
| PennElectric | 4:83bdb4efea8b | 12 | * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING |
| PennElectric | 4:83bdb4efea8b | 13 | * BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
| PennElectric | 4:83bdb4efea8b | 14 | * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, |
| PennElectric | 4:83bdb4efea8b | 15 | * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, |
| PennElectric | 4:83bdb4efea8b | 16 | * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. |
| PennElectric | 4:83bdb4efea8b | 17 | */ |
| PennElectric | 4:83bdb4efea8b | 18 | |
| PennElectric | 4:83bdb4efea8b | 19 | // ------------------------------ MAX518 Interfacing Library ------------------------------------ |
| PennElectric | 4:83bdb4efea8b | 20 | |
| PennElectric | 4:83bdb4efea8b | 21 | |
| PennElectric | 4:83bdb4efea8b | 22 | #include "MAX518.h" |
| PennElectric | 4:83bdb4efea8b | 23 | #include "mbed.h" |
| PennElectric | 4:83bdb4efea8b | 24 | |
| PennElectric | 4:83bdb4efea8b | 25 | // Class constructor 1, create i2c connection, update instance variables |
| PennElectric | 4:83bdb4efea8b | 26 | DAC::DAC(PinName sda, PinName scl, int address, int freq, bool ack) : i2c(sda, scl) { |
| PennElectric | 4:83bdb4efea8b | 27 | _address = address; |
| PennElectric | 4:83bdb4efea8b | 28 | _ack = ack; |
| PennElectric | 4:83bdb4efea8b | 29 | i2c.frequency(freq); |
| PennElectric | 4:83bdb4efea8b | 30 | } |
| PennElectric | 4:83bdb4efea8b | 31 | // Class constructor 2, create i2c connection, update instance variables |
| PennElectric | 4:83bdb4efea8b | 32 | DAC::DAC(PinName sda, PinName scl, int address, bool ack) : i2c(sda, scl) { |
| PennElectric | 4:83bdb4efea8b | 33 | _address = address; |
| PennElectric | 4:83bdb4efea8b | 34 | _ack = ack; |
| PennElectric | 4:83bdb4efea8b | 35 | } |
| PennElectric | 4:83bdb4efea8b | 36 | // Class constructor 3, create i2c connection, update instance variables |
| PennElectric | 4:83bdb4efea8b | 37 | DAC::DAC(PinName sda, PinName scl, int address, int freq) : i2c(sda, scl) { |
| PennElectric | 4:83bdb4efea8b | 38 | _address = address; |
| PennElectric | 4:83bdb4efea8b | 39 | _ack = true; |
| PennElectric | 4:83bdb4efea8b | 40 | i2c.frequency(freq); |
| PennElectric | 4:83bdb4efea8b | 41 | } |
| PennElectric | 4:83bdb4efea8b | 42 | // Class constructor 4, create i2c connection, update instance variables |
| PennElectric | 4:83bdb4efea8b | 43 | DAC::DAC(PinName sda, PinName scl, int address) : i2c(sda, scl) { |
| PennElectric | 4:83bdb4efea8b | 44 | _address = address; |
| PennElectric | 4:83bdb4efea8b | 45 | _ack = true; |
| PennElectric | 4:83bdb4efea8b | 46 | } |
| PennElectric | 4:83bdb4efea8b | 47 | // Set output of both DAC channels with ints 0 - 255 |
| PennElectric | 4:83bdb4efea8b | 48 | bool DAC::setDAC(int a, int b) { |
| PennElectric | 4:83bdb4efea8b | 49 | if (a > 255 || a < 0 || b > 255 || b < 0) |
| PennElectric | 4:83bdb4efea8b | 50 | return false; // Return if int a or int b is out of range |
| PennElectric | 4:83bdb4efea8b | 51 | int check = 0; // Counter for ACK signals |
| PennElectric | 4:83bdb4efea8b | 52 | |
| PennElectric | 4:83bdb4efea8b | 53 | i2c.start(); |
| PennElectric | 4:83bdb4efea8b | 54 | check += i2c.write(_address); // Write address |
| PennElectric | 4:83bdb4efea8b | 55 | check += i2c.write(0); // Select Channel 1 |
| PennElectric | 4:83bdb4efea8b | 56 | check += i2c.write(a); // Write output value |
| PennElectric | 4:83bdb4efea8b | 57 | check += i2c.write(1); // Select Channel 2 |
| PennElectric | 4:83bdb4efea8b | 58 | check += i2c.write(b); // Write output value |
| PennElectric | 4:83bdb4efea8b | 59 | i2c.stop(); // End communication (trigger DAC to update outputs) |
| PennElectric | 4:83bdb4efea8b | 60 | |
| PennElectric | 4:83bdb4efea8b | 61 | if (_ack && check != 5) return false; // Return false if device did not acknowledge when expected |
| PennElectric | 4:83bdb4efea8b | 62 | else return true; |
| PennElectric | 4:83bdb4efea8b | 63 | } |
| PennElectric | 4:83bdb4efea8b | 64 | |
| PennElectric | 4:83bdb4efea8b | 65 | // Set output of DAC Channel 1 with int 0 - 255 |
| PennElectric | 4:83bdb4efea8b | 66 | bool DAC::setCh1(int n) { |
| PennElectric | 4:83bdb4efea8b | 67 | if (n > 255 || n < 0) return false; // Return if n is out of range |
| PennElectric | 4:83bdb4efea8b | 68 | int check = 0; // Counter for ACK signals |
| PennElectric | 4:83bdb4efea8b | 69 | |
| PennElectric | 4:83bdb4efea8b | 70 | i2c.start(); |
| PennElectric | 4:83bdb4efea8b | 71 | check += i2c.write(_address); // Write address |
| PennElectric | 4:83bdb4efea8b | 72 | check += i2c.write(0); // Select Channel 1 |
| PennElectric | 4:83bdb4efea8b | 73 | check += i2c.write(n); // Write output value |
| PennElectric | 4:83bdb4efea8b | 74 | i2c.stop(); // End communication (trigger DAC to update outputs) |
| PennElectric | 4:83bdb4efea8b | 75 | |
| PennElectric | 4:83bdb4efea8b | 76 | if (_ack && check != 3) return false; // Return false if device did not acknowledge when expected |
| PennElectric | 4:83bdb4efea8b | 77 | else return true; |
| PennElectric | 4:83bdb4efea8b | 78 | } |
| PennElectric | 4:83bdb4efea8b | 79 | |
| PennElectric | 4:83bdb4efea8b | 80 | // Set output of DAC Channel 2 with int 0 - 255 |
| PennElectric | 4:83bdb4efea8b | 81 | bool DAC::setCh2(int n) { |
| PennElectric | 4:83bdb4efea8b | 82 | if (n > 255 || n < 0) return false; // Return if n is out of range |
| PennElectric | 4:83bdb4efea8b | 83 | int check = 0; // Counter for ACK signals |
| PennElectric | 4:83bdb4efea8b | 84 | |
| PennElectric | 4:83bdb4efea8b | 85 | i2c.start(); |
| PennElectric | 4:83bdb4efea8b | 86 | check += i2c.write(_address); // Write address |
| PennElectric | 4:83bdb4efea8b | 87 | check += i2c.write(1); // Select Channel 1 |
| PennElectric | 4:83bdb4efea8b | 88 | check += i2c.write(n); // Write output value |
| PennElectric | 4:83bdb4efea8b | 89 | i2c.stop(); // End communication (trigger DAC to update outputs) |
| PennElectric | 4:83bdb4efea8b | 90 | |
| PennElectric | 4:83bdb4efea8b | 91 | if (_ack && check != 3) return false; // Return false if device did not acknowledge when expected |
| PennElectric | 4:83bdb4efea8b | 92 | else return true; |
| PennElectric | 4:83bdb4efea8b | 93 | } |
| PennElectric | 4:83bdb4efea8b | 94 | |
| PennElectric | 4:83bdb4efea8b | 95 | // Reset DAC (all outputs to 0) |
| PennElectric | 4:83bdb4efea8b | 96 | bool DAC::reset() { |
| PennElectric | 4:83bdb4efea8b | 97 | int check = 0; // Counter for ACK signals |
| PennElectric | 4:83bdb4efea8b | 98 | |
| PennElectric | 4:83bdb4efea8b | 99 | i2c.start(); |
| PennElectric | 4:83bdb4efea8b | 100 | check += i2c.write(_address); // Write address |
| PennElectric | 4:83bdb4efea8b | 101 | check += i2c.write(16); // Reset command (all outputs to 0) |
| PennElectric | 4:83bdb4efea8b | 102 | i2c.stop(); // End communication (trigger DAC to update) |
| PennElectric | 4:83bdb4efea8b | 103 | |
| PennElectric | 4:83bdb4efea8b | 104 | if (_ack && check != 2) return false; // Return false if device did not acknowledge when expected |
| PennElectric | 4:83bdb4efea8b | 105 | else return true; |
| PennElectric | 4:83bdb4efea8b | 106 | } |
| PennElectric | 4:83bdb4efea8b | 107 | |
| PennElectric | 4:83bdb4efea8b | 108 | // Power down DAC into silent monitoring mode (outputs also go to 0) |
| PennElectric | 4:83bdb4efea8b | 109 | bool DAC::powerDown() { |
| PennElectric | 4:83bdb4efea8b | 110 | int check = 0; // Counter for ACK signals |
| PennElectric | 4:83bdb4efea8b | 111 | |
| PennElectric | 4:83bdb4efea8b | 112 | i2c.start(); |
| PennElectric | 4:83bdb4efea8b | 113 | check += i2c.write(_address); // Write address |
| PennElectric | 4:83bdb4efea8b | 114 | check += i2c.write(8); // Power down DAC into silent mode (outputs also go to 0) |
| PennElectric | 4:83bdb4efea8b | 115 | i2c.stop(); // End communication (trigger DAC to update) |
| PennElectric | 4:83bdb4efea8b | 116 | |
| PennElectric | 4:83bdb4efea8b | 117 | if (_ack && check != 2) return false; // Return false if device did not acknowledge when expected |
| PennElectric | 4:83bdb4efea8b | 118 | else return true; |
| PennElectric | 0:8ebf1c452028 | 119 | } |