1. TEAM 2
Remote Control Car

2. Team #2: Total Resources
500 Man hours
$500 or key part availability for material and prototyping
LPI-Sean (BSEE)
LSD-Russ (BSEE)
LPM-Adam (BSEE)
LRM-Brad (BSEE)
LMM-Barry (BSEE)

3. Team #2 Project
Our project is a remote control car, that can display battery life speed and direction, and can turn on the lights at the flip of a switch or if it gets dark.
The benefit to the user would be a better remote control car
There are similar types of products, however we are the only one that has all of these features.
Our product would fall under the consumer industry
Picture from

4. Project Features
The remote control car has a two-way antenna that can transmit to and receive data from the car.
Control of the car will come from the controller.
The car can turn its lights on and off manually, and automatically if it gets dark enough.
The display will tell us the speed and direction of the car, and the battery life remaining.

5. Team #2: Project 1 Block Assignment
Digital
RF Trans / Rec
Sean [4]
RF Trans / Rec
Sean [4]
Digital
Digital
Digital
Power Supply
Brad [2]
Ctrlr Processor
Brad [3]
Car Processor
Russ [6]
On Car Sensing
Adam [8]
Digital
Analog
Analog
Electromechanical Control Russ[7]
Digital
Signal Input & Display
Barry [1]
Power Source
Sean [5]
PCB 1, power supply will be connected to all blocks
PCB 2, power supply will be connected to all blocks

6. System - Std Reqs: Marketing Requirement Units to Specify
Competitors
Market Size
Average List Price
Market Geography
Market Demography
Intended Application
Material Cost
Manufacturing Cost
Annual Volume
Traxxus, Tra5510
$600 million, website
$200
World-Wide
6 yr. old to adult, boys
Home, toy
$80 / unit
$20 / unit
6 million / yr

7. System - Std Reqs: Production Requirement Units to Specify
Max Volume
Shipping Container Size
Max Mass
Elec I/F Connector(s)
Max # of PC Bds
Max PCB Circuit Area
Max Shock
12,000 cm3
18,000 cm3
2 Kilograms
Tyco (e.g. IEC320, Nema, etc) 5
200 cm2 Total
50 G force

8. System - Std Reqs: Mfg & Life Cycle Requirement Units to Specify
Max Parts Count
Max Unique Parts Count
Parts/Mat $ Allocation
Asm/Test $ Allocation
Product Life, Reliability
Full Warranty Period
Service Strategy
200 Total Parts
100 Unique Parts
$80 (Parts+Mfg=Product Cost)
$20 (Parts+Mfg=Product Cost)
3 yrs
6 months
Repair

9. System - Std Reqs: Enviroment Requirement Units to Specify
Min Oper Temp Range
Min Oper Humidity Range
Min Oper Alt or Press Range
Min Storage Temp Range
Min Storage Humidity Range
Min Storage Alt or Press Range
Max Storage Duration
10-60 Co
10-90% non-condensing
Meters
0-80Co
10-90% non-condensing
1 year

10. System - Std Reqs: Power Interfaces Requirement Units to Specify
Energy Source List
Source Connection List
Min Oper Voltage Range
Max Power Consumption
Max Energy Consumption
Battery (Nimh or Li Ion)
Temporary
5-9.0 V and V
18.0 Watts Total
6000 mAH Total

11. System – Perf Reqs: Power Requirement Definition
Modes of Operation
CAR
Battery Chemistry
Battery Capacity
Controller
Battery Pack
Display Segments
Accuracy
On/Off
Nimh
6000 mA-Hrs
i.e. AA 1.5V
10 bars
⅛ battery life

12. System – Perf Reqs: Display
LCD Display:
Display size:
Max. Display Distance:
Viewing Environment:
Display Char Matrix:
Display Size:
Display Illumination:
Mono Color
150mm x 70mm
1 meter
Any
20 Total Char/Row, 4 Total Rows
20cm x 10cm
LED

13. System – Perf Reqs: Operator I/F Inputs Requirement Definition
40 dB 1% 80
.25V
.005s
300m
Min SNR
Max THD
Min Power Gain
Max Error Voltage
Max Delay
Min EM Transmission Distance

14. System – Perf Reqs: Mech Interfaces Requirement Definition
Connectors
Signal 1 Max Current Limit
Signal 1 Max Trip Time
Signal 2 Max Current Limit
Signal 2 Max Trip Time
Max Potential
Male pin, female socket
.5 Amps
.01 s
5 V

15. System – Perf Reqs: Lights & Speed Requirement Definition
Power Saving Modes
Accuracy
Updates
Speed Range
ON/OFF/AUTO
None
± 3 mph
200 ms
0-40 mph

16. System – Perf Reqs: Direction & Battery Requirement Definition
Accuracy
Response Time
Input/Output
Updates
8 Directional Units
200 ms
0-5V logic levels

17. System – Perf Reqs: Safety Standards
UL precautions so there is no risk to the user from the electrical circuit
UL precautions so there is no risk to the user from the motor overheating.
UL 1977-precautions so connectors don’t get blown out due to high voltage or amperage

18. System – Perf Reqs: Safety Requirements
UL The maximum surface voltage is under 9.0V
Cispr – Our frequency will not operate in the 1910 – 1930 MHz frequencies bands.
UL Only use connectors rated type 0

19. EMC Standards
ESD immunity test, essential in order to protect the product from electrostatic discharge from humans
ESD immunity test, essential in order to protect humans from the electrostatic discharge from the product
Determines if the product is safe from surges in power

20. Designed by: Barry Gentz
Signal Input
Designed by: Barry Gentz

21. Team #2: Project 1 Block Assignment
Digital
RF Trans / Rec
Sean [4]
RF Trans / Rec
Sean [4]
Digital
Digital
Digital
Power Supply
Brad [2]
Ctrlr Processor
Brad [3]
Car Processor
Russ [6]
On Car Sensing
Adam [8]
Digital
Analog
Analog
Electromechanical Control Russ[7]
Digital
Signal Input & Display
Barry [1]
Power Source
Sean [5]
PCB 1, power supply will be connected to all blocks
PCB 2, power supply will be connected to all blocks

22. Block 1
Signal input consists of 2 potentiometers, a switch, ESD protection, filtering, and logic gates.
Display mounted on the controller to relay information to the user which is able to be viewed in a dim/dark environment with backlight.

23. Block 1 - Std Reqs: Env & Safety Requirement Units to Specify
Min Oper Temp Range
Min Oper Humidity Range
Min Oper Alt or Press Range
Min Storage Temp Range
Min Storage Humidity Range
Min Storage Alt or Press Range
Max Storage Duration
10-60 Co
10-90% non-condensing
Meters
0-80Co
10-90% non-condensing
1 year

24. Block 1 - Std Reqs: Power Interfaces Requirement Units to Specify
Energy Source List
Source Connection List
Operating Voltage Range
Max Power Consumption
Max Energy Consumption
Max Potential
Power Supply
Permanent/Temp V
18.0 Watts
1000 mAH
9 V

25. Block 1 - Std Reqs: Mechanical Requirement Units to Specify
Elec I/F Connector(s)
Max # of PC Bds
Max PCB Circuit Area
Max Shock
Tyco 2
153 cm2 Total
50 G force

26. Block 1- Std Reqs: Mfg & Life Cycle Requirement Units to Specify
Max Parts Count
Max Unique Parts Count
Parts/Mat $ Allocation
Asm/Test $ Allocation
Product Life, Reliability
Full Warranty Period
Product Disposition
Service Strategy
25 Total Parts
12 Unique Parts
$125
$50
3 yrs
6 months
Dispose
Dispose or Repair

27. Block 1 – Perf Reqs: Operator I/F Inputs Requirement Definition
60 dB 1% 80
.25V
Min SNR
Max THD
Min Power Gain
Max Error Voltage

28. Block 1– Perf Reqs: Mech Interfaces / Safety
Connectors
Signal 1 Max Current Limit
Signal 1 Max Trip Time
Signal 2 Max Current Limit
Signal 2 Max Trip Time
Signal 3 Max Current Limit
Signal 3 Max Trip Time
Signal 4 Max Current Limit
Signal 4 Max Trip Time
Male pin
.005 Amps
.004 s
.160 Amps

29. Signal Input Speed Display Analog Direction Processor Analog Lights
Digital
Power ( 5V )

30. Signal Input : Signal Type
Digital
Analog

31. Display : Power
Display : Digital

33. Designed by: Brad LaCount
Power Supply
Designed by: Brad LaCount

34. Team #2: Project 1 Block Assignment
Digital
RF Trans / Rec
Sean [4]
RF Trans / Rec
Sean [4]
Digital
Digital
Digital
Power Supply
Brad [2]
Ctrlr Processor
Brad [3]
Car Processor
Russ [6]
On Car Sensing
Adam [8]
Digital
Analog
Analog
Electromechanical Control Russ[7]
Digital
Signal Input & Display
Barry [1]
Power Source
Sean [5]
PCB 1, power supply will be connected to all blocks
PCB 2, power supply will be connected to all blocks

35. Power Supply Block
Consists of 10 AA style batteries and a low-dropout voltage reference supplying 5V to the controller components.

36. Block 2 - Std Reqs: Env & Safety Requirement Units to Specify
Min Oper Temp Range
Min Oper Humidity Range
Min Oper Alt or Press Range
Min Storage Temp Range
Min Storage Humidity Range
Min Storage Alt or Press Range
Max Storage Duration
10-60 Co
10-90% non-condensing
Meters
0-80Co
10-90% non-condensing
1 year

37. Block 2 - Std Reqs: Power Interfaces Requirement Units to Specify
Energy Source List
Source Connection List
Operating Voltage Range
Max Power Consumption
Max Energy Consumption
Battery
Temporary V
18.0 Watts
2800 mAH

38. Block 2 - Std Reqs: Mechanical Requirement Units to Specify
Elec I/F Connector(s)
Max # of PC Bds
Max PCB Circuit Area
Max Shock
Tyco 1
20 cm2 Total
50 G force

39. Block 2- Std Reqs: Mfg & Life Cycle Requirement Units to Specify
Max Parts Count
Max Unique Parts Count
Parts/Mat $ Allocation
Asm/Test $ Allocation
Product Life, Reliability
Full Warranty Period
Product Disposition
Service Strategy
30 Total Parts
5 Unique Parts
$10 (Parts+Mfg=Product Cost)
$50 (Parts+Mfg=Product Cost)
3 yrs
6 months
Dispose
Dispose or Repair

40. Block 2 – Perf Reqs: Power Input(s)
Controller
Battery Pack
10 AA 1.5V

41. Block 2 – Perf Reqs: Electrical Interfaces
Electrical Signal Req Direction
Power Signal
Output

42. Block 2 – Perf Reqs: Operator I/F Inputs Requirement Definition
60 dB 1% 80
.25V
Min SNR
Max THD
Min Power Gain
Max Error Voltage

43. Requirement Definition
Block 2– Perf Reqs: Mech Interfaces / Safety
Requirement Definition
Connectors
Max Potential
Male pin, Battery tray 9V

44. Requirement Definition
Block 2 – Perf Reqs: Modes of Operation
Requirement Definition
Power Modes
Power Saving Modes
ON/OFF
None

45. Controller Power Supply Block Diagram
Battery Pack
Lights
Voltage Regulator 5V LDO
CPU
Speed
Direction

46. Power

47. Block Prototyping Plan Template Power Supply
Name
Block Area (cm2)
Total PCB
Area (cm2)
PCB
Substrate
Type
Comp
Attachment
Socketed
Components
Types of
Connectors
Power Supply
250 20
Perfboard
Pins/ wires/solder
DIP and SMT Conversion Sockets
None

48. CPU Control and Display
Designed by: Brad LaCount

49. Team #2: Project 1 Block Assignment
Digital
RF Trans / Rec
Sean [4]
RF Trans / Rec
Sean [4]
Digital
Digital
Digital
Power Supply
Brad [2]
Ctrlr Processor
Brad [3]
Car Processor
Russ [6]
On Car Sensing
Adam [8]
Digital
Analog
Analog
Electromechanical Control Russ[7]
Digital
Signal Input & Display
Barry [1]
Power Source
Sean [5]
PCB 1, power supply will be connected to all blocks
PCB 2, power supply will be connected to all blocks

50. Block 3 :CPU and Display Description Four line display
It is mounted on the controller to relay information to the user
Able to view in dim/dark environment – backlight
The Processor is used to coordinate and executed the function of the Controller
Display mounted on the controller to relay information to the user
Chip on glass (COG) technology

51. Block 4 Standard Requirements
Min Oper Temp Range:
Min Oper Humidity Range:
Min Oper Alt or Press Range:
Min Oper Range (Distance):
Min Storage Temp Range:
Min Storage Humidity Range:
Min Storage Alt or Press Range:
Max Storage Duration:
Value
0-60 Co
10-90% non-condensing
Meters
Line of Sight
0-80Co
10-90% non-condensing
1 year

52. Controller Processor Block Diagram

53. Block 3
Analog
Digital
Power

54. Block Prototyping Plan Template Controller Processor
Name
Block Area (cm2)
Total PCB
Area (cm2)
PCB
Substrate
Type
Comp
Attachment
Socketed
Components
Types of
Connectors
Controller
Processor
250 50
Perfboard
Pins/ wires/solder
DIP and SMT Conversion Sockets
None

55. Designed by: Sean Murphy
RF Trans/Rec
Designed by: Sean Murphy

56. Team #2: Project 1 Block Assignment
Digital
RF Trans / Rec
Sean [4]
RF Trans / Rec
Sean [4]
Digital
Digital
Digital
Power Supply
Brad [2]
Ctrlr Processor
Brad [3]
Car Processor
Russ [6]
On Car Sensing
Adam [8]
Digital
Analog
Analog
Electromechanical Control Russ[7]
Digital
Signal Input & Display
Barry [1]
Power Source
Sean [5]
PCB 1, power supply will be connected to all blocks
PCB 2, power supply will be connected to all blocks

57. Block 4 - RF
Two way real time digital communication between controller and car processors
Feeds information to car such as speed and direction
Feedback information to controller on battery life, speed, and direction

58. Block 4 Standard Requirements
Min Oper Temp Range:
Min Oper Humidity Range:
Min Oper Alt or Press Range:
Min Oper Range (Distance):
Min Storage Temp Range:
Min Storage Humidity Range:
Min Storage Alt or Press Range:
Max Storage Duration:
Value
0-60 Co
10-90% non-condensing
Meters
Line of Sight
0-80Co
10-90% non-condensing
1 year

59. Block 4 Performance Requirements
Value

60. Car Processor Power RF Transceiver Supply Power RF Transceiver Supply
Block 4 Signals RF
Car Processor
Digital
Power
Supply
5V DC
Transmitted Bit Package Car To Controller:
Speed Indicator
Direction Indicator
Battery Life
RF Transceiver
Digital
Transmitted Bit Package Controller To Car:
Speed From User
Dir From User
Lights On/Off/Ambient
Power
Supply
RF Transceiver
5V DC
Digital
Ctrlr Processor

61. RF Transceiver : Digital
RF Transceiver : Power
RF Transceiver : Digital

62. Block 4 Prototyping Plan Template
Name
Block Area (cm2)
Total PCB
Area (cm2)
PCB
Substrate
Type
Comp
Attachment
Socketed
Components
Types of
Connectors RF
250
200
(2 – 10x10)
Glass fiber
Standoffs
N/A
Multi-pin

63. Designed by: Sean Murphy
Power Source
Designed by: Sean Murphy

64. Team #2: Project 1 Block Assignment
Digital
RF Trans / Rec
Sean [4]
RF Trans / Rec
Sean [4]
Digital
Digital
Digital
Power Supply
Brad [2]
Ctrlr Processor
Brad [3]
Car Processor
Russ [6]
On Car Sensing
Adam [8]
Digital
Analog
Analog
Electromechanical Control Russ[7]
Digital
Signal Input & Display
Barry [1]
Power Source
Sean [5]
PCB 1, power supply will be connected to all blocks
PCB 2, power supply will be connected to all blocks

65. Block 5: Car Power Source
Provides power to all on car devices and functions
Indicates battery life remaining to processor
Will require voltage regulation
Device
Voltage Req
Direction Sensor: 5V
Speed Sensor:
Lights:
Direction Control:
Speed Control:
0-15V
RF:

66. Standard Requirements

67. Performance Requirements

68. Car Power Supply Block Diagram

69. Power Source: Power

70. Block Prototyping Plan Template Power Source
Name
Block Area (cm2)
Total PCB
Area (cm2)
PCB
Substrate
Type
Comp
Attachment
Socketed
Components
Types of
Connectors
Car Power
250 50
Perfboard
Pins/ wires/solder
DIP and SMT Conversion Sockets
None

71. Designed by: Russ Diamond
Car CPU
Designed by: Russ Diamond

72. Team #2: Project 1 Block Assignment
Digital
RF Trans / Rec
Sean [4]
RF Trans / Rec
Sean [4]
Digital
Digital
Digital
Power Supply
Brad [2]
Ctrlr Processor
Brad [3]
Car Processor
Russ [6]
On Car Sensing
Adam [8]
Digital
Analog
Analog
Electromechanical Control Russ[7]
Digital
Signal Input & Display
Barry [1]
Power Source
Sean [5]
PCB 1, power supply will be connected to all blocks
PCB 2, power supply will be connected to all blocks

73. Block 6: Car Processor
Interprets signals from the transceiver and outputs control signals to the rest of the board.
It also passes back data sensed on the car to the transceiver.

74. Performance Requirements

75. Car Processor

76. Block Prototyping Plan Template Car Processor
Name
Block Area (cm2)
Total PCB
Area (cm2)
PCB
Substrate
Type
Comp
Attachment
Socketed
Components
Types of
Connectors
Car CPU 25 40
Perfboard
Pins/ wires/solder
DIP and SMT Conversion Sockets
20 pin mini

77. Block 6: Car Processor Inputs Outputs CPU for Car PIC 16F777
(40-pin dip)

78. Car Processor : Digital
Car Processor: Power
Car Processor : Digital

79. Block Prototyping Plan Template Car Processor
Name
Block Area (cm2)
Total PCB
Area (cm2)
PCB
Substrate
Type
Comp
Attachment
Socketed
Components
Types of
Connectors
CPU for Car
250 50
Perfboard
Pins/ wires/solder
DIP and SMT Conversion Sockets
None

80. Designed by: Russ Diamond
Motor Control
Designed by: Russ Diamond

81. Team #2: Project 1 Block Assignment
Digital
RF Trans / Rec
Sean [4]
RF Trans / Rec
Sean [4]
Digital
Digital
Digital
Power Supply
Brad [2]
Ctrlr Processor
Brad [3]
Car Processor
Russ [6]
On Car Sensing
Adam [8]
Digital
Analog
Analog
Electromechanical Control Russ[7]
Digital
Signal Input & Display
Barry [1]
Power Source
Sean [5]
PCB 1, power supply will be connected to all blocks
PCB 2, power supply will be connected to all blocks

82. Block 6: Motor Control
Generates an analog voltage across the voltage terminals for the motor

83. Block 7: Car Processor Min Oper Temp Range 10-60 Co
Min Oper Humidity Range
Min Oper Alt or Press Range
Min Storage Temp Range
Min Storage Humidity Range
Min Storage Alt or Press Range
Max Storage Duration
10-60 Co
10-90% non-condensing
Meters
0-80Co
10-90% non-condensing
1 year

84. Performance Requirements

85. Block 7 – Motor Control Motor Control Circuit 4 Digital inputs
2 Analog outputs
To Motor
1 Digital Input
Traxxas
Servo
Position Control is achieved by sending a pulse to the servo every 20ms. The length of the pulse determines the positioning of the servo.

86. Electromechanical Control

87. Block Prototyping Plan Template Motor Control
Name
Block Area (cm2)
Total PCB
Area (cm2)
PCB
Substrate
Type
Comp
Attachment
Socketed
Components
Types of
Connectors
Motor Control 30 15
Perfboard
Pins/ wires/solder
None
Three position connector

88. Designed by: Adam Wozniak
Car Signals
Designed by: Adam Wozniak

89. Team #2: Project 1 Block Assignment
Digital
RF Trans / Rec
Sean [4]
RF Trans / Rec
Sean [4]
Digital
Digital
Digital
Power Supply
Brad [2]
Ctrlr Processor
Brad [3]
Car Processor
Russ [6]
On Car Sensing
Adam [8]
Digital
Analog
Analog
Electromechanical Control Russ[7]
Digital
Signal Input & Display
Barry [1]
Power Source
Sean [5]
PCB 1, power supply will be connected to all blocks
PCB 2, power supply will be connected to all blocks

90. Block 6: Car Sensing
Signals if the lights are on or off
Signals how fast the car is going
Signals in which direction the car is moving

91. Standard Reqs: Car Sensor Requirement Definition
Direction Sensor
Accuracy
Response Time
Speed Sensor
Updates
Speed Range
4 Directional Units
500 ms
+ 5 mph
0-25 mph

92. Performance Reqs: Car Sensor Requirement Definition
Direction Sensor
Accuracy
Response Time
Speed Sensor
Updates
Speed Range
8 Directional Units
200 ms
+ 3 mph
0-40 mph

93. Block 8: Car Sensing Direction Sensor Car Sensing Transmit to CPU
Digital
Car Sensing
Car
Processor
Transmit to CPU
Speed
Sensor
Speed digital
Lights digital
Light
Sensor
Power

94. Speed Indicator: Power
Speed Indicator : Digital
Speed Indicator : Analog

96. Estimation Slide From Lab 1 Manhours-500 Material $500 ~2% for design
~86% for detailed design
~2% for verification
~10% for documentation
From Lab 3
Manhours-1702
Material $1031
These values may be off due to overlapping of projects.

97. Block Prototyping Plan Template Overall
Name
Block Area (cm2)
Total PCB
Area (cm2)
PCB
Substrate
Type
Comp
Attachment
Socketed
Components
Types of
Connectors
Overall
1550
650
Perfboard, breadboard
Pins/ wires/solder
None

98. Gantt Chart