| dc.identifier.citation | Abandah, G., (no year), “Introducing Embedded Systems and the Microcontrollers”, pp. 3-23. Burgess, M., (1999), “C Programming Tutorial”, Faculty of Engineering, Oslo College, pp. 1-9. E-MU, (2007), “Proteus VX Operation Manual”, E-MU System, Pp. 9-24. E-mu Systems, Inc., (no year), “Proteus Operation Manual”, E-mu Systems Inc., pp. 27-40. Intel Corporation, (1997), “AP577 Application Note: An Introduction to Plastic Pin Grid Array (PPGA) Packaging”, Order Number: 243103- 004, pp. 5-6. Labcenter Electronics, (2007),”Copyright Notice”, Labcenter Electronics, pp. 5- 6. Microcomputer System Design, (no year), “Introduction to Proteus VSM (Part I)”, Microcomputer System Design, pp. 1-16. National Semiconductor, (1995), “LM35/LM35A/LM35C/LM35CA/L M35D Precision Centigrade Temperature Sensors”, National Semiconductor Corporation, pp. 1-12. National Semiconductor, (2000), “LM35 Precision Centigrade Temperature Sensors”, National Semiconductor Corporation, pp. 1-13. National Semiconductor, (2002), “LM34/LM35 Precision Monolithic Temperature Sensors Introduction”, National Semiconductor Application Note 460 October 1986, pp. 1-13. NETZSCH, (no year), “Software Installation Manual NETZSCH Software Proteus® 6.1.0”, Gerätebau GmbH, pp. 10-33. Peinhopf, W., (2006), “Application Note AN-TO220 Full PAK”, Infineon Technologies AG, pp. 1-6. Putra, A.E., Nugraha, D., (2010), “Tutorial Pemrograman Mikrokontroler AVR dengan WinAVR GCC (ATMega 16/32/8535), FREE e-book v1.0, pp.3- 5. | en_US |
| dc.description.abstract | Implementation of LM35 temperature sensor aided the microcontroller on design room
temperature conditioning system has been done, through the steps of: (1) integration
LM35 temperature sensor to the microcontroller system, (2) programming of the
Arduino Uno R3 microcontroller, and (3) verification of the test program. Integration
into the microcontroller system, such as the provision of four main ports of
microcontroller was connected to: i) 5 volt dc power supply, ii) LM35, iii)
electromechanical relays, and iv) 2x16 LCD. Based on the sensor connection to the
Arduino Uno R3 obtained orders addressing "int tempPin= 0;" for sensor-1 serves to
measure the temperature in the room and "int tempPin = 1;" for sensor-2 is used to
measure the rate of cooling the thermoelectric cooling system. Verification test was
conducted to determine the achievement of the target value. The target temperature of
25 °C for the detection performed by the sensor-1 and 10 °C for the detection performed
by the sensor-2. These conditions are described in the description, namely (a) if the
value of the detected temperature is upper than 25 0C, then the blower fan will operate
("on"), (b) if the value of the detected temperature is less than 25 0C, then the blower
fan will stop operating ("off"), and (c) if the temperature that detected by sensor-1 more
than the value of 25 0C and temperature that detected by sensor-2 in thermoelectric
cooling system is below the value of 10 0C, then the blower fan and thermoelectric
cooling system will operate ("on"). | en_US |
