TY  - THES
N1  - Pembimbing : 1. Frida Agung Rakhmadi, S.Si., M.Sc, 2. Khamidinal, S.Si., M.Si
ID  - digilib42630
UR  - https://digilib.uin-suka.ac.id/id/eprint/42630/
A1  - Salisa Nurrohmah, NIM.: 16620016
Y1  - 2020/07/28/
N2  - This research is motivated by the lack of a light intensity control system in the high power RGB-LED
fluorescence imaging system that was created by previous researchers. This study aims to design and
create a high-power RGB-LED fluorescence imaging system to control light intensity using Pulse Width
Modulation (PWM) and LabVIEW software and integrate it with a high-power RGB-LED fluorescence
imaging system. In addition, this study also aims to test the performance of a light intensity control
system that has been created and is integrated with a high power RGB-LED fluorescence imaging
system. This research was conducted in three stages, namely system design and manufacturing, system
integration and system performance testing. The system design is made using SolidWork software.
System development is done by preparing tools and materials, assembling components, and checking
tools. The integration of the system is done by placing a light intensity control system that has been
made on the casing of the high power RGB-LED fluorescence imaging system. System testing includes
precision and linearity with duty cycle variations ranging from 0 to 100 at intervals 1 with repeated
measurements of each duty cycle 5 times. The tests were carried out on each LED color, namely red,
green, and blue. The results showed that the RGB-LED fluorescence imaging system using PWM and
LabVIEW software have been successfully designed and created and integrated with high power RGBLED
fluorescence imaging system. The precision (repeatability) of system that was created is high (very
good) is as follows; for red LEDs at 99.03959152%, for green LEDs at 97.83846822% and for blue
LEDs at 98.59290995%. In addition, the system created has a good linearity with results for red LEDs
of 0.8352, for green LEDs of 0.9975 and for blue LEDs of 0.9991.
PB  - UIN SUNAN KALIJAGA YOGYAKARTA
KW  - High power RGB-LED
KW  -  fluorescence imaging system
KW  -  light intensity control system
KW  -  Pulse Width Modulation (PWM).
M1  - skripsi
TI  - RANCANG BANGUN DAN UJI KINERJA SISTEM
PENGATUR INTENSITAS CAHAYA HIGH POWER
RGB-LED MENGGUNAKAN PULSE WIDTH
MODULATION (PWM) DAN SOFTWARE LABVIEW
UNTUK OPTIMALISASI FLUORESCENCE IMAGING
SYSTEM
AV  - restricted
EP  - 196
ER  -