lampiran a gambar sistem - repository.maranatha.edu file// func7=in func6=in func5=in func4=in...
TRANSCRIPT
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LAMPIRAN A
GAMBAR SISTEM
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SISTEM OBJEK TAMPAK DALAM
SISTEM OBJEK TAMPAK LUAR
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SISTEM PENERIMA
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LAMPIRAN B
PROGRAM AVR ATMEGA 128
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/*****************************************************
Chip type : ATmega128L
Program type : Application
Clock frequency : 11.059200 MHz
Memory model : Small
External SRAM size : 0
Data Stack size : 1024
*****************************************************/
#include <mega128.h>
#include <delay.h>
#include <math.h>
#include <stdlib.h>
unsigned char g[16]; //tampungan data
// Alphanumeric LCD Module functions
// I2C Bus functions
#asm
.equ __lcd_port=0x1B ;PORTA
.equ __i2c_port=0x15 ;PORTC
.equ __sda_bit=0
.equ __scl_bit=1
#endasm
#include <lcd.h>
#include <i2c.h>
#define RXB8 1
#define TXB8 0
#define UPE 2
#define OVR 3
#define FE 4
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#define UDRE 5
#define RXC 7
#define FRAMING_ERROR (1<<FE)
#define PARITY_ERROR (1<<UPE)
#define DATA_OVERRUN (1<<OVR)
#define DATA_REGISTER_EMPTY (1<<UDRE)
#define RX_COMPLETE (1<<RXC)
// Get a character from the USART1 Receiver
#pragma used+
char getchar1(void)
{
char status,data;
while (1)
{
while (((status=UCSR1A) & RX_COMPLETE)==0);
data=UDR1;
if ((status & (FRAMING_ERROR | PARITY_ERROR |
DATA_OVERRUN))==0)
return data;
};
}
#pragma used-
// Write a character to the USART1 Transmitter
#pragma used+
void putchar1(char c)
{
while ((UCSR1A & DATA_REGISTER_EMPTY)==0);
UDR1=c;
}
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#pragma used-
// Standard Input/Output functions
#include <stdio.h>
// Declare your global variables here
void main(void)
{
unsigned char string[10];
unsigned char buf,x;
float h_bar;
unsigned int temp,pressure; // bilangan bulat 0-6355
unsigned char temp1,temp2;
// Input/Output Ports initialization
// Port A initialization
// Func7=In Func6=In Func5=In Func4=In Func3=In Func2=In Func1=In
Func0=In
// State7=T State6=T State5=T State4=T State3=T State2=T State1=T State0=T
PORTA=0x00;
DDRA=0x00;
// Port B initialization
// Func7=In Func6=In Func5=In Func4=In Func3=In Func2=In Func1=In
Func0=In
// State7=T State6=T State5=T State4=T State3=T State2=T State1=T State0=T
PORTB=0x00;
DDRB=0x00;
// Port C initialization
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// Func7=In Func6=In Func5=In Func4=In Func3=In Func2=In Func1=In
Func0=In
// State7=T State6=T State5=T State4=T State3=T State2=T State1=T State0=T
PORTC=0x00;
DDRC=0x00;
// Port D initialization
// Func7=In Func6=In Func5=In Func4=In Func3=In Func2=In Func1=In
Func0=In
// State7=T State6=T State5=T State4=T State3=T State2=T State1=T State0=T
PORTD=0x00;
DDRD=0x00;
// Port E initialization
// Func7=In Func6=In Func5=In Func4=In Func3=In Func2=In Func1=In
Func0=In
// State7=T State6=T State5=T State4=T State3=T State2=T State1=T State0=T
PORTE=0x00;
DDRE=0x00;
// Port F initialization
// Func7=In Func6=In Func5=In Func4=In Func3=In Func2=In Func1=In
Func0=In
// State7=T State6=T State5=T State4=T State3=T State2=T State1=T State0=T
PORTF=0x00;
DDRF=0x00;
// Port G initialization
// Func4=In Func3=In Func2=In Func1=In Func0=In
// State4=T State3=T State2=T State1=T State0=T
PORTG=0x00;
DDRG=0x00;
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// Timer/Counter 0 initialization
// Clock source: System Clock
// Clock value: Timer 0 Stopped
// Mode: Normal top=FFh
// OC0 output: Disconnected
ASSR=0x00;
TCCR0=0x00;
TCNT0=0x00;
OCR0=0x00;
// Timer/Counter 1 initialization
// Clock source: System Clock
// Clock value: Timer 1 Stopped
// Mode: Normal top=FFFFh
// OC1A output: Discon.
// OC1B output: Discon.
// OC1C output: Discon.
// Noise Canceler: Off
// Input Capture on Falling Edge
// Timer 1 Overflow Interrupt: Off
// Input Capture Interrupt: Off
// Compare A Match Interrupt: Off
// Compare B Match Interrupt: Off
// Compare C Match Interrupt: Off
TCCR1A=0x00;
TCCR1B=0x00;
TCNT1H=0x00;
TCNT1L=0x00;
ICR1H=0x00;
ICR1L=0x00;
OCR1AH=0x00;
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OCR1AL=0x00;
OCR1BH=0x00;
OCR1BL=0x00;
OCR1CH=0x00;
OCR1CL=0x00;
// Timer/Counter 2 initialization
// Clock source: System Clock
// Clock value: Timer 2 Stopped
// Mode: Normal top=FFh
// OC2 output: Disconnected
TCCR2=0x00;
TCNT2=0x00;
OCR2=0x00;
// Timer/Counter 3 initialization
// Clock source: System Clock
// Clock value: Timer 3 Stopped
// Mode: Normal top=FFFFh
// Noise Canceler: Off
// Input Capture on Falling Edge
// OC3A output: Discon.
// OC3B output: Discon.
// OC3C output: Discon.
// Timer 3 Overflow Interrupt: Off
// Input Capture Interrupt: Off
// Compare A Match Interrupt: Off
// Compare B Match Interrupt: Off
// Compare C Match Interrupt: Off
TCCR3A=0x00;
TCCR3B=0x00;
TCNT3H=0x00;
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TCNT3L=0x00;
ICR3H=0x00;
ICR3L=0x00;
OCR3AH=0x00;
OCR3AL=0x00;
OCR3BH=0x00;
OCR3BL=0x00;
OCR3CH=0x00;
OCR3CL=0x00;
// External Interrupt(s) initialization
// INT0: Off
// INT1: Off
// INT2: Off
// INT3: Off
// INT4: Off
// INT5: Off
// INT6: Off
// INT7: Off
EICRA=0x00;
EICRB=0x00;
EIMSK=0x00;
// Timer(s)/Counter(s) Interrupt(s) initialization
TIMSK=0x00;
ETIMSK=0x00;
// USART0 initialization
// Communication Parameters: 8 Data, 1 Stop, No Parity
// USART0 Receiver: On
// USART0 Transmitter: On
// USART0 Mode: Asynchronous
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// USART0 Baud Rate: 9600
UCSR0A=0x00;
UCSR0B=0x18;
UCSR0C=0x06;
UBRR0H=0x00;
UBRR0L=0x47;
// USART1 initialization
// Communication Parameters: 8 Data, 1 Stop, No Parity
// USART1 Receiver: On
// USART1 Transmitter: On
// USART1 Mode: Asynchronous
// USART1 Baud Rate: 4800
UCSR1A=0x00;
UCSR1B=0x18;
UCSR1C=0x06;
UBRR1H=0x00;
UBRR1L=0x8F;
// Analog Comparator initialization
// Analog Comparator: Off
// Analog Comparator Input Capture by Timer/Counter 1: Off
ACSR=0x80;
SFIOR=0x00;
// LCD module initialization
lcd_init(16);
// I2C Bus initialization
i2c_init();
while (1) // looping
{
buf=0;
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while (buf!='$') buf=getchar1();
getchar1();
getchar1();
getchar1();
buf=getchar1();
if (buf=='G')
{
for (x=0;x<9;x++)
{
buf=0;
while (buf!=',') buf=getchar1();
}
buf=0;
x=0;
while (buf!=',')
{
buf=getchar1();
string[x]=buf;
x++;
}
x--;
string[x]=0;
buf=0;
while (buf!=0x0A) buf=getchar1();
printf("GPS:");
printf("%6s",string);
printf(" m ");
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sprintf(g,"GPS= %s M ",string); //data gps
lcd_gotoxy(0,0);
lcd_puts(g);
i2c_start(); // Start Condition
i2c_write(0xE0); // Tulis ke modul DT-SENSE
i2c_write(0x00); // Perintah baca data tekanan
i2c_stop(); // Stop Condition
delay_ms(15); // delay 15 ms
i2c_start(); // Start Condition
i2c_write(0xE1); // Baca ke modul DT-SENSE
temp1 = i2c_read(1);
temp2 = i2c_read(0);
i2c_stop(); // Stop Condition
pressure = (unsigned int)temp1*256 + temp2;
h_bar=(float)pressure/10;
h_bar=h_bar/1013.25;
h_bar=log10(h_bar);
h_bar=h_bar/5.2558797;
h_bar=pow(10,h_bar)-1;
h_bar=h_bar*1000000/-6.87559;
h_bar=h_bar*0.3048;
ftoa(h_bar,2,string);
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printf("Pressure: ");
temp=pressure/10;
printf("%u",temp);
putchar('.');
temp=pressure%10;
printf("%u",temp);
printf(" hpa ");
printf("H_Bar:");
printf("%7s",string);
printf(" m\n\r ");
sprintf(g,"H_Bar=%s M ",string); //data ketinggian dari tekanan
lcd_gotoxy(0,1);
lcd_puts(g);
}
};
}
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LAMPIRAN C
CODE VISUAL BASIC
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Public Dat_payload As Integer
Public sercount As Integer
Public buff_ser As Byte
Private Sub Command10_Click()
RichTextBox1.SaveFile Text13.Text
MsgBox ("DATA TERSIMPAN")
End Sub
Private Sub Command5_Click()
If MSComm1.PortOpen = False Then MSComm1.PortOpen = True
End Sub
Private Sub Command6_Click()
If MSComm1.PortOpen = True Then MSComm1.PortOpen = False
End Sub
Private Sub Command8_Click()
End
End Sub
Private Sub Command9_Click()
MSComm1.CommPort = Text9.Text
MSComm1.Settings = Text12.Text & ",n,8,1"
MSComm1.Handshaking = comNone
End Sub
Private Sub MSComm1_OnComm()
buff_ser = MSComm1.Input
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Text7.Text = buff_ser
End Sub
Private Sub Text10_Change()
Dim a As String
Dim b As String
Dim c As String
a = Mid(Text10.Text, 5, 6) ' indikasi GPS
Text1(1).Text = a
b = Mid(Text10.Text, 23, 6) ' indikasi PREASURE
Text1(2).Text = b
c = Mid(Text10.Text, 40, 6) ' indikasi H_BAR
Text1(3).Text = c
End Sub
Private Sub Timer2_Timer()
If MSComm1.PortOpen = True Then
Text10.Text = MSComm1.Input
RichTextBox1.Text = Time & " ; " & Text10.Text & " ; " & Chr$(13) &
RichTextBox1.Text
End If
End Sub
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LAMPIRAN D
DATA SHEET
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Data Sheet GPS
ADS-GM1 GPS Receiver
The ADS-GM1 is a high-sensitivity GPS receiver based on the SiRFstar III
chipset. It has a 2-meter long cable terminated in a female DB9 connector that
allows direct connection to an OpenTracker+, Tracker2, or any other device that
provides regulated 5-volt power on pin 4.
SiRFstar III high-sensitivity chipset
Waterproof housing (IPX7 rating)
Built-in low noise, high gain antenna
Magnetic base
LED clearly indicates positioning status
No configuration required
20 channel all-in-view tracking
Sensitivity: -159 dBm typical
Accuracy: < 10 meters 2D RMS, < 7 meters WAAS corrected, time to 1
microsecond
Datum: WGS84
Acquisition Rate: 1 sec hot start, 42 sec cold start
Dynamic Limits: < 18,000 meters, < 1000 knots, < 4G acceleration
Power Supply: 5 VDC +/- 5%, 80 mA max, 55 mA typical
Interface: NMEA-0183 at 4800 baud, optional SiRF binary
NMEA Messages: GGA, GSA, GSV, RMC, and optionally VTG, GLL, and ZDA
Weight: 85 grams
LED flashes red to indicate valid GPS fix. Made in Taiwan.
Pin Wire Function
2 Red RS-232 data out (+/- 6v)
3 Brown RS-232 data in
4 Green Power in
5 Blue Ground
- Yellow TTL data out (0-3v)
- Black TTL data in
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Data Sheet Sensor Tekanan
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Data Sheet ATMega 128
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Konversi Ketinggian Terhadap Tekanan
Altitude Units to Pressure Units Conversion Table
Convert from an altitude in feet or metres above sea
level to a pressure reading in millibar (mbar, mb or
mbr), hectopascals (hPa), pounds per square inch (psi), millimetres of mercury at zero degrees celsius
(mmHg @ 0 deg C) or inches of mercury at zero
degrees celsius ( inHg @ 0 deg C).
The height relative to sea level conversions are derived
using the US Standard Atmosphere 1976 barometric
formula for geopotential altitude with the following physical constants and multi-valued (*) constants for sea level up
to a height of 36,089 ft (11,000m)
1. *Standard atmospheric pressure of 1013.25 mb
absolute at sea level
2. *Standard temperature of 288.15 K (15°C) 3. *Standard thermal gradient or lapse rate of -0.0065
K/m increase in altitude
4. Standard acceleration due to gravity of 9.80665 m/s2
5. Gas constant for air of 8.31432 J/Kmol K
6. Molar mass of air of 0.0289644 kg/mole
Please note that the calculated altitude values are not
absolutely precise conversions and should not be treated as such.
Altitude to Pressure Conversion Table
-5000 ft -1524.0 m is 1210.23 mb/hPa 17.553 psi 907.75 mmHg 35.738 inHg
-4000 ft -1219.2 m is 1168.55 mb/hPa 16.948 psi 876.48 mmHg 34.507 inHg
-3000 ft -914.40 m is 1128.03 mb/hPa 16.361 psi 846.09 mmHg 33.311 inHg
-2000 ft -609.60 m is 1088.66 mb/hPa 15.790 psi 816.56 mmHg 32.148 inHg
-1000 ft -304.80 m is 1050.41 mb/hPa 15.235 psi 787.87 mmHg 31.018 inHg
-900 ft -274.32 m is 1046.64 mb/hPa 15.180 psi 785.05 mmHg 30.907 inHg
-800 ft -243.84 m is 1042.89 mb/hPa 15.126 psi 782.23 mmHg 30.796 inHg
-700 ft -213.36 m is 1039.15 mb/hPa 15.072 psi 779.42 mmHg 30.686 inHg
-600 ft -182.88 m is 1035.41 mb/hPa 15.017 psi 776.62 mmHg 30.576 inHg
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-500 ft -152.40 m is 1031.69 mb/hPa 14.963 psi 773.83 mmHg 30.466 inHg
-400 ft -121.92 m is 1027.98 mb/hPa 14.910 psi 771.05 mmHg 30.356 inHg
-300 ft -91.440 m is 1024.28 mb/hPa 14.856 psi 768.28 mmHg 30.247 inHg
-200 ft -60.960 m is 1020.59 mb/hPa 14.802 psi 765.51 mmHg 30.138 inHg
-100 ft -30.480 m is 1016.92 mb/hPa 14.749 psi 762.75 mmHg 30.030 inHg
-50 ft 15.240 m is 1015.08 mb/hPa 14.723 psi 761.37 mmHg 29.975 inHg
0 ft 0 m is 1013.25 mb/hPa 14.696 psi 760.00 mmHg 29.921 inHg
50 ft 15.240 m is 1011.42 mb/hPa 14.669 psi 758.63 mmHg 29.867 inHg
100 ft 30.480 m is 1009.59 mb/hPa 14.643 psi 757.26 mmHg 29.813 inHg
200 ft 60.960 m is 1005.95 mb/hPa 14.590 psi 754.52 mmHg 29.706 inHg
300 ft 91.440 m is 1002.31 mb/hPa 14.537 psi 751.80 mmHg 29.598 inHg
400 ft 121.92 m is 998.689 mb/hPa 14.485 psi 749.08 mmHg 29.491 inHg
500 ft 152.40 m is 995.075 mb/hPa 14.432 psi 746.37 mmHg 29.385 inHg
600 ft 182.88 m is 991.472 mb/hPa 14.380 psi 743.67 mmHg 29.278 inHg
700 ft 213.36 m is 987.880 mb/hPa 14.328 psi 740.97 mmHg 29.172 inHg
800 ft 243.84 m is 984.298 mb/hPa 14.276 psi 738.28 mmHg 29.066 inHg
900 ft 274.32 m is 980.727 mb/hPa 14.224 psi 735.61 mmHg 28.961 inHg
1000 ft 304.80 m is 977.166 mb/hPa 14.173 psi 732.93 mmHg 28.856 inHg
2000 ft 609.60 m is 942.129 mb/hPa 13.664 psi 706.65 mmHg 27.821 inHg
3000 ft 914.40 m is 908.117 mb/hPa 13.171 psi 681.14 mmHg 26.817 inHg
4000 ft 1219.2 m is 875.105 mb/hPa 12.692 psi 656.38 mmHg 25.842 inHg
5000 ft 1524.0 m is 843.073 mb/hPa 12.228 psi 632.36 mmHg 24.896 inHg
6000 ft 1828.8 m is 811.996 mb/hPa 11.777 psi 609.05 mmHg 23.978 inHg
7000 ft 2133.6 m is 781.854 mb/hPa 11.340 psi 586.44 mmHg 23.088 inHg
8000 ft 2438.4 m is 752.624 mb/hPa 10.916 psi 564.51 mmHg 22.225 inHg
9000 ft 2743.2 m is 724.285 mb/hPa 10.505 psi 543.26 mmHg 21.388 inHg
10000 ft 3048.0 m is 696.817 mb/hPa 10.106 psi 522.66 mmHg 20.577 inHg
15000 ft 4572.0 m is 571.820 mb/hPa 8.2935 psi 428.90 mmHg 16.886 inHg
20000 ft 6096.0 m is 465.633 mb/hPa 6.7534 psi 349.25 mmHg 13.750 inHg
25000 ft 7620.0 m is 376.009 mb/hPa 5.4536 psi 282.03 mmHg 11.104 inHg
30000 ft 9144.0 m is 300.896 mb/hPa 4.3641 psi 225.69 mmHg 8.8855 inHg
35000 ft 10668 m is 238.423 mb/hPa 3.4580 psi 178.83 mmHg 7.0406 inHg
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Rumus Ketinggian Terhadap Tekanan
Z meters = ( 1 - ( P/ 1013.25 )^ 0.19 ) ) / 22.558 E-6
Altitude = (10^(log(P/P_0)/5.2558797)-1)/-6.8755856*10^-6.
Where P is the pressure at an unknown altitude, and P_0 is the pressure at sea
level (zero feet). P and P_0 can be expressed in any unit because they are
computed as a ratio.