GONIO-A summary of the methodology used in the GONIO
-A summary of the methodology used for the antenna
-The results and the conditions of the tests
-The percentage of success
-The percentage of fails and the reasons
-The material and composant used to construct the GONIO
A summary of the methodology used in the GONIO
A summary of the methodology used in the GONIO
A B
C D
A
The material and composant used to construct the GONIO
Diagram implementation of project
The material and composant used to construct the GONIO
Frequency Range : 400-470 Mhz
Power Output 4 watt Sensitivity: 0,25 mVBattery Life: 10 hours Weight: 200 g
The material and composant used to construct the GONIO
R2 0 5 RE S IS TO R V A R
U5 0
5 5 5 B1
234
567
8
G N D
TR IG G E RO U TP U TRE S E T
CO NTR O LTH RE S HO L DDIS CH A RG E
V C C
D2 0
DIO DE
0
5 V DC
Q 1 0 1C1 8 1 5
P U L S E (8 K HZ)
R3 0 1R
R5 0 11 k
0
C2 0 21 0 2
0
D1 0
DIO DE
S W 2
S T O P S CA N
C1 2 0
1 u
0
C1 0 1
1 0 3R2 0 34 7 k
R4 0 1
4 .7 k
R2 23 3 K
Module produce pulse
The material and composant used to construct the GONIO
R1 0 11 k
5 V
QA
D1
L E D
P U L S E (8 K HZ)
QD
U2 0
7 4 HC1 9 3
1
8
91 0
1 21 3
1 5
16
23
67
1 4
4
1 1
5
B
GND
DC
COB O
A
VCC
QBQA
QCQD
CL R
DO W N
L O A D
UP
QB
5 V
QC
0
5 V
0
Block counter
The material and composant used to construct the GONIO
C2 0 0
Q CQ D
C8 0 0
2 .5 VU1 5
7 4 HC4 0 5 1
6
8
1 11 0
9
16
7
3
1 31 41 51 21524
E N
GND
ABC
VCC
V E E
X
X 0X 1X 2X 3X 4X 5X 6X 7 C4 0 0
C1 0 01 0 4
C6 0 0
C7 0 0
5 V
0
Q B
C5 0 0
C3 0 0
Block digital filter
The material and composant used to construct the GONIO
RD 6
RA 3
RD 1
RB 2
RA 5
S W 1
RC 4RE S E T
RD 5
RA 4
RE 2
C21 0 3
RE 0
R11 0 k
RD 0
0
RA 6
P G C
RA 0
RD 4
RC 0
RB 1
C4
3 3 p
RE 1
P G DRB 5
C33 3 p
RE 1
P G D
P V N1
P IC 1 6 F 8 7 7 A
234567
3 33 43 53 63 73 83 94 0
1 51 61 71 82 32 42 52 6
1 92 02 12 22 72 82 93 0
1 3
1 4
3 21 1
3 11 2
1
891 0
RA 0 /A N 0RA 1 /A N 1RA 2 /A N 2 /V RE F -/CV RE FRA 3 /A N 3 /V RE F +RA 4 /T0 CK I /C1 O UTRA 5 /A N 4 /S S */C 2 O U T
RB 0 /IN TRB 1RB 2
RB 3 /P G MRB 4RB 5
RB 6 /P G CRB 7 /P G D
RC 0 /T1 O S O /T1 CK IRC 1 /T1 O S I/CCP 2RC 2 /CC P 1RC 3 /S C K /S CLRC 4 /S D I/S D ARC 5 /S D ORC 6 /TX /CKRC 7 /RX /DT
RD 0 /P S P 0RD 1 /P S P 1RD 2 /P S P 2RD 3 /P S P 3RD 4 /P S P 4RD 5 /P S P 5RD 6 /P S P 6RD 7 /P S P 7
O S C1 / CL K IN
O S C2 / CL K O UT
V D DV D D
V S SV S S
M C L R* /V P P
RE 0 /RD */A N5RE 1 /W R*/A N6RE 2 /CS */A N7
RA 1
C11 0 4
RC 1
RC 5
RB 0
RE 0
RD 3
0
RB 6
RB 4
J8
CO N3
123RE 2
RA 2
J1
CO N5
12345
RE S E T
RC 2
RC 6RD 7
5 V
P G C
5 V
RD 2
D1
L E D
RB 3
0
Y 1
CR Y S T A L
0
RC 7
RC 3
0
RB 7
module microprocessor
A summary of the methodology used for the antenna
Antenna Switcher
A summary of the methodology used for the antenna
0
J3
CO N5
12345
0
5 V
A N T1A N T2
ZE RO
U8
7 4 HC1 4 _ 1
1 23 45 6
714
1 3 1 21 1 1 0
9 8
1 A 1 Y2 A 2 Y3 A 3 Y
GND
VCC
6 A 6 Y5 A 5 Y4 A 4 Y
R2 71 0 K
5 V
U1 0
7 4 HC1 3 88
1 51 41 31 21 11 097
123
546
16GN
D
Y 0Y 1Y 2Y 3Y 4Y 5Y 6Y 7
ABC
G 2 BG 2 AG 1
VCC
A N T3A N T4
ZE RO _ O U T
A summary of the methodology used for the antenna
The results and the conditions of the tests
The results and the conditions of the tests
The percentage of successThe percentage of fails,the reasons
We have 80% success. Reasons off fails :
◦The circuit test is not good because it make by hand
◦Have a lot of noise