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Group 13: Jamie Brunskill Tyler Shaw Kyle Stevens

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Presentation on theme: "Group 13: Jamie Brunskill Tyler Shaw Kyle Stevens"— Presentation transcript:

1 Group 13: Jamie Brunskill Tyler Shaw Kyle Stevens
RFI Detector Group 13: Jamie Brunskill Tyler Shaw Kyle Stevens

2 Introduction Radio Frequency Interference (RFI)
Passive element filters detect phone RF User knows if nearby phone is active

3 Objective Arecibo Observatory Measurements susceptible to interference
Phones radiate RF signals under normal operation Can affect data Easy for visitors to forget and/or ignore Create handheld device to detect active cell phones

4 Design

5

6 POWER UNIT

7 Power Unit 4 AA alkaline batteries to have a starting voltage of 6 V
2 Voltage Regulators First one steps down the voltage to 3.3V Second one steps down the voltage to 2.048V Yellow LED Indicates that device is on

8 Power Unit Schematic

9 Features Batteries are easily accessible
First Voltage Regulator outputs a steady 3.3V +/- 5% Second Voltage Regulator outputs a steady 2.048V +/- 5% Power Switch easily accessible Yellow LED visible to person using device

10 Expected Battery Life 1 AA Battery = 2800 mAh (amp hours)
Imeasured = 120 mA Assuming device on 10 minutes per day: Life Span = 140 days

11 Power and Control Unit PCB

12 CONTROL UNIT

13 Control Unit ATmega328P Microcontroller Thermistor LED Visual Feedback
Green: No cell phone detected Orange: Internal temperature warning Red: Active cell phone detected

14 ATmega328P Multiple 10-bit Analog-to-Digital converters
Uses Arduino ISP I/O pins support 10 mA, 2.1 V output

15 ADCs ADCs convert analog voltage to digital number
Based on external reference we provide (2.048 V) Assigned number between

16

17 Thermistor Sub-Circuit
Vout is sent to ADC2 RTH changes based on temperature Safe operating usually around 85 oC We set our cutoff at 81 oC RTH = kΩ Threshold C set to 615 If value rises above this, then circuit is too hot

18

19

20 Feedback Logic Take multiple samples per cycle
Take average of samples to eliminate false positives Red LED turns on when RF detected Stays on for 3 seconds unless another packet of RF is sensed Otherwise green LED is on

21 RF UNIT

22

23 Cellular Frequencies in Puerto Rico

24 Lower Band RF Schematic

25 Upper Band RF Schematic

26 Antennas Requirement 1: Must receive frequencies MHz and MHz Requirement 2: Must be matched to 50 ohms at center frequency of each band

27 Antennas

28 Antennas

29 Antennas Requirement 1: Must receive frequencies MHz and MHz PASS Requirement 2: Must be matched to 50 ohms at center frequency of each band FAIL

30 Bandpass Filters Lower Frequency Band: 704-849 MHz
Upper Frequency Band: MHz Requirement 1: Less than 8 dB of loss within the passband Requirement 2: 20 dB shape factor less than 7

31 Lower Band Filter < 3 dB Passband Loss Shape Factor: 3.67

32 Lower Band Filter 2nd Order Filter

33 Lower Band Filter

34 Lower Band Filter

35 Lower Band Filter

36 Lower Band Filter

37 Lower Band Filter Requirement 1: Less than 8 dB of loss within the passband Up to 16 dB ---> FAIL Requirement 2: 20 dB shape factor less than 7 > PASS

38 Higher Band Filter < 2.4 dB Passband Loss Shape Factor: 7.3

39 Higher Band Filter

40 Higher Band Filter

41 Higher Band Filter

42 Higher Band Filter

43 Higher Band Filter

44 Higher Band Filter

45 Higher Band Filter Requirement 1: Less than 8 dB of loss within the passband < 5.6 dB ---> PASS Requirement 2: 20 dB shape factor less than 7 > PASS

46 Matching Networks Requirement: Less than 3 dB of loss within passband

47 Lower Band Matching

48 Lower Band Matching

49 Lower Band Matching Requirement: Less than 3 dB of loss within passband > 12 dB ---> FAIL

50 Higher Band Matching

51 Higher Band Matching

52 Higher Band Matching Requirement: Less than 3 dB of loss within passband > 13 dB ---> FAIL

53 RF Detector Requirement 1: Must detect 704-849 MHz and 1710-1915 MHz
PASS Requirement 2: Must detect down to -40 dBm Both verified with a conducted signal from signal generator and a multimeter

54 RF PCB

55 Demo

56 Conclusion Iterative design Non-idealities in components
Communication of deadlines and concepts

57 Future Work Lumped component filter -> Microstrip filter
Higher quality substrate Combine all subsections onto one PCB More efficient current draw

58 Questions?

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