2012 - Mechatronics
Abstract: No abstract text available
Text: board 4x PWM controlled RC servos Leg mechanics and associated hardware Bipedal 4DOF walking robot , and easily as possible. Bipedal Four Degrees of Freedom Walking Robot Assembly Instructions , degrees of freedom (DOF) bipedal walking robot , controlled by the Tower System mechatronics board , a robot walk and respond to touch, motion, vibration, tilt and other external stimuli. Tower , Number Price easy, and both the robot and the Tower System mechatronics board are backed up
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16-bit
32-bit
16-bitrs.
element14
Mechatronics
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2011 - robot using microcontroller
Abstract: rc servo MCF52259 mechatronics using microcontroller RC servo motors MMA7455L MPR121 MMA8451Q MMA8451 how to make a robot
Text: servos · Leg mechanics and associated hardware · Bipedal 4DOF walking robot assembly instructions · , as quickly and easily as possible. Bipedal 4 Degrees of Freedom walking Robot assembly , board and robot Overview The Tower Mechatronics Board combines 32-bit computing, sensors, and , walking robot , controlled by the Tower Mechatronic Board. Included are simple development tools that will help you learn to write software for sensors, while making a robot walk and respond to touch
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32-bit
robot using microcontroller
rc servo
MCF52259
mechatronics using microcontroller
RC servo motors
MMA7455L
MPR121
MMA8451Q
MMA8451
how to make a robot
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2008 - wireless robot
Abstract: hexapod robot bluetooth CONTROLLED ROBOT spider robot robot with wireless camera mobile control robot Mobile Controlled Robot Kinematics image sensing camera robot Mobile Controlled intelligent Robot
Text: functionality, and smart embedded software were joined with a new and unique design methodology, combining , insects. Three moving and three lifted "feet" enable the desired walking speed, providing a sufficient , application area. These challenges are met by a highly mobile walking scheme. The leg mechanics and motion , . Under the hood, the hexapod robot features machine vision, distance measurement, and wireless , in the robot 's rigid body. Mission parameters, I/O settings, and new motion gaits can be
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T07542-0-5/08
wireless robot
hexapod robot
bluetooth CONTROLLED ROBOT
spider robot
robot with wireless camera
mobile control robot
Mobile Controlled Robot
Kinematics
image sensing camera robot
Mobile Controlled intelligent Robot
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wall climbing robot circuit
Abstract: IR sensor for obstacle avoidance block diagram of suction pump robot control transmitter and receiver circuit walking robot diagram and design wall climbing robot three phase pwm using TMS320LF2407 introduction note of wireless pc controlled robot block diagram servo motor application in robotics DC SERVO MOTOR flowchart
Text: hardware design The components of the robot such as three DC servomotors, two suction pump motors and , micro-robot. The robot can accomplish certain tasks such as walking on the ground and climbing the wall , LF2407 DSP chip in the controller design of the wall-climber robot with the dimension less than 9 inches , kinematic structure reduces both weight and power consumption of robot , since it requires fewer actuators , angle permits steering capabilities for the robot . Due to the existence of differential gear and belt
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TMS320LF2407
LF2407
PIC17C756A"
AN718,
AN532,
SPRA550,
TMS320LF/LC240x
wall climbing robot circuit
IR sensor for obstacle avoidance
block diagram of suction pump
robot control transmitter and receiver circuit
walking robot diagram and design
wall climbing robot
three phase pwm using TMS320LF2407
introduction note of wireless pc controlled robot
block diagram servo motor application in robotics
DC SERVO MOTOR flowchart
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2003 - IR sensor for line follower robot
Abstract: 6 led dancing light project report Light-sensitive Alarm Project circuit diagram of line follower robot light following robot diagram car reverse horn mini project report Light-sensitive Alarm Project 555 timer 24 led having dancing light project report 6 led having dancing light project report object follower robot using microcontroller
Text: program a walking robot . Walking robots introduce embedded control in a positive, fun and friendly way , Parallax Toddler robot and contributed to the Toddler design as part of our team. This curriculum was , partners and attempts to time the translations to coordinate with our publications. ! Toddler Robot , the area of hobby and education. The reason for this is that they have inherent design limitations , robots have wheels. However, people have a natural tendency to appreciate a walking robot : they seem
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14-DAY
IR sensor for line follower robot
6 led dancing light project report
Light-sensitive Alarm Project
circuit diagram of line follower robot
light following robot diagram
car reverse horn mini project report
Light-sensitive Alarm Project 555 timer
24 led having dancing light project report
6 led having dancing light project report
object follower robot using microcontroller
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2004 - boe-bot
Abstract: No abstract text available
Text: might encounter. Legs bind when walking Check all joints and loosen as needed. Joints should always , Boe-Bot⢠robot . However, since the ground speed of a rolling wheel and the ground speed of the crawler , Educational: www.stampsinclass.com Crawler Kit for the Boe-Bot⢠Robot (#30055) The Crawler Kit This kit allows your Parallax Boe-Bot⢠Robot to walk on six legs. Assembly takes approximately 60 minutes to , part to the parts list. Once you have inventoried your kit, proceed to Step #1. Parallax Boe-Bot robot
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1996 - robot circuit diagram
Abstract: walking robot diagram and design robot using microcontroller hexapod robot microcontroller based robot code for input data to fuzzy microcontroller phased array probe strain gauge sensor microcontroller of sensors n actuators of robot manipulators strain gauge sensor programing
Text: a diagram of the robot leg. It is powered by two gearmotors and it has a passive foot-like , motor sequencing behavior. An 8XC552 is also used to directly interface with the robot and communicate , space it can reach. The location of the object is unknown to the robot and changing periodically. This , robot leg. For each axis, there is a potentiometer for angle sensing and a pair of strain gauges to , directly with the robot . In addition to carrying out the necessary A/D and PWM functions for sensor and
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AN710
16-bit
80C51XA
robot circuit diagram
walking robot diagram and design
robot using microcontroller
hexapod robot
microcontroller based robot
code for input data to fuzzy
microcontroller phased array probe
strain gauge sensor microcontroller
of sensors n actuators of robot manipulators
strain gauge sensor programing
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toddler bumper sensor
Abstract: LED-BICOLOR bumper robotics toddler Final limit switch lift advanced robotics parallax infrared sensor code of ir sensor in basic stamp BS2 Parallax "toddler"
Text: with sensor inputs because it is walking instead of rolling. In a rolling robot like Boe-Bot, you can , Chapter 8: Real-Time Programming with Bumpers and Infrared · Page 165 Chapter #8: Real-Time Programming with Bumpers and Infrared Note to reader: This chapter requires the Toddler Toes Kit (#27312 , 's an easy task. 1. 2. 3. 4. 5. 6. Turn off all the LEDs to start Test each switch input and , . Turn off all the LEDs PAUSE for ½ second or however long you want the LEDs off. GOTO to #2 and
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1996 - hexapod robot circuits diagram
Abstract: robot circuit diagram of sensors n actuators of robot manipulators robot circuit diagram free position control DC servo motor using fuzzy logic robot using microcontroller walking robot diagram and design hexapod robot AN710 strain gauge sensor microcontroller
Text: ROBOT LEG Figure 1 is a diagram of the robot leg. It is powered by two gearmotors and it has a passive , interface with the robot and communicate with the XA through I 2C. In addition to carrying out AD/PWM , within the space it can reach. The location of the object is unknown to the robot and changing , robot leg. For each axis, there is a potentiometer for angle sensing and a pair of strain gauges to , stably and reliably. Together with the sensors and actuators of the robot leg, the 8XC552 implements
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AN710
hexapod robot circuits diagram
robot circuit diagram
of sensors n actuators of robot manipulators
robot circuit diagram free
position control DC servo motor using fuzzy logic
robot using microcontroller
walking robot diagram and design
hexapod robot
AN710
strain gauge sensor microcontroller
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1997 - walking robot diagram and design
Abstract: TMS320C40 TMS320
Text: the control bus. Figure 5 shows the block diagram of the DSP board. The input data and output data , changes to its products or to discontinue any semiconductor product or service without notice, and , products and related software to the specifications applicable at the time of sale in accordance with TI's standard warranty. Testing and other quality control techniques are utilized to the extent TI deems , sales office. In order to minimize risks associated with the customer's applications, adequate design
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TMS320C40
SPRA189
TMS320C40
walking robot diagram and design
TMS320
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1997 - TMS320C40
Abstract: walking robot diagram and design TMS320 autonomous robots gaussian filter COLLISION AVOIDANCE
Text: the control bus. Figure 5 shows the block diagram of the DSP board. The input data and output data , changes to its products or to discontinue any semiconductor product or service without notice, and , products and related software to the specifications applicable at the time of sale in accordance with TI's standard warranty. Testing and other quality control techniques are utilized to the extent TI deems , sales office. In order to minimize risks associated with the customer's applications, adequate design
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TMS320C40
SPRA189
TMS320C40
walking robot diagram and design
TMS320
autonomous robots
gaussian filter
COLLISION AVOIDANCE
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SRF04 ultrasonic sensor
Abstract: line follower robot without microcontroller IR sensor for line follower robot srf04 line follower robot using microcontroller circuit line follower robot using microcontroller line follower robot light follower robot NX-1000 srf04 ultrasonic range finder
Text: Stamp 2, it's easy to see and understand the design concept for inclusion in your own PC Boards. OEM , ) , OEM Components If you have built a project with a BASIC Stamp and would like to produce the design , an OEM approach, you design the PBASIC interpreter chip, EEPROM, resonator and individual , Education. All I/O projects are built on the breadboard and may be reconfigured easily. The Boe-Bot Robot , ; #27400; $189.00; Order 2 and save $40!; This bot is a competition-ready robot within the Northwest Robot
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BS2p24
SRF04 ultrasonic sensor
line follower robot without microcontroller
IR sensor for line follower robot
srf04
line follower robot using microcontroller circuit
line follower robot using microcontroller
line follower robot
light follower robot
NX-1000
srf04 ultrasonic range finder
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decoder 74LS47
Abstract: No abstract text available
Text: Robot is a precision-machined 4â tall biped. The Penguin walks forward with a tilt-stride action and , linked together for this robot to walk. This basic biped design functions best in the Penguinâs small , process which is more difficult to understand than a two-wheeled robot . For example, Penguinâs walking , Penguin kit includes a portion of the tools required to build the robot (the hex keys, drill bit, and , . Replace the horn on the spline, and replace the screw. Copyright © Parallax Inc. Penguin Robot
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2013 - Qwik Connect
Abstract: soldiers
Text: predetermined distance. Military and civilian applications 2 Military Robot History In the 1930s, the , remote control and automation of transport vehicles will continue to be a key focus of robot /remote , to the robot . The eyes and ears are provided by a set of high-resolution cameras and a twoway audio , armor and cargo. n July 2013 QwikConnect n July 2013 design faces the same restrictions , upon improvements in sensors and the software that a robot uses to make decisions. Robots that can
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2013 - Qwik Connect
Abstract: No abstract text available
Text: and right itself if capsized. Mesa Roboticsâ MATILDA is another example of a treaded military robot , to the robot . The eyes and ears are provided by a set of high-resolution cameras and a twoway audio , armor and cargo. QwikConnect n July 2013 design faces the same restrictions. Here are some , upon improvements in sensors and the software that a robot uses to make decisions. Robots that can , and robot âM2â at White Sands Missile Range information or issue/relay commands to each other
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BCY-W2/D3.1
Abstract: 4M XTAL Crystal Oscillator BCY-W2/D3.1 7805 internal circuit diagram XTAL,Crystals,Oscillators Regulated Power Supply design using 7805 ht1632 7805 internal circuit diagram of LED matrix display HT48R10A-1 bcy-w2
Text: is used to depict a walking person display effect. The HT1632 has two display formats: 24 outbits/16 commons and 32 outbits/8 commons. This design uses the 24 outbits/16 common display format. The animated figure uses 10 different screen display formats to create the walking person effect. Pressing the switch will initiate different walking effect types. HT1632 Basic Characteristicis · Operating Voltage , of LED display driver device. Its range of applications are large and can include digital clocks
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HT1632
HT1632
HA0136E
outbits/16
470uF
BCY-W2/D3.1
4M XTAL Crystal Oscillator BCY-W2/D3.1
7805 internal circuit diagram
XTAL,Crystals,Oscillators
Regulated Power Supply design using 7805
7805 internal circuit
diagram of LED matrix display
HT48R10A-1
bcy-w2
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HT1632C
Abstract: Regulated Power Supply design using 7805 7805 internal circuit diagram BCY-W2/D3.1 16*32 LED Matrix 8*8 led matrix HT48R10A-1 L.E.D Moving Display Board LED MOVING DISPLAY CIRCUIT diagram HT1632
Text: matrix which is used to depict a walking person display effect. The HT1632C has two display formats: 24 ROW/16 COM and 32 ROW/8 COM. This design uses the 24 ROW/16 COM display format. The animated figure , design uses 10 different types of screen displays to depict a walking person effect. For this reason the , walking style is achieved by: store TEMP_ADDR value and do not change, then write a table read value to , mapping type of LED display driver device. Its range of applications are large and can include digital
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HT1632C
HT1632C
HA0136E
ROW/16
HT48R10A-1
Regulated Power Supply design using 7805
7805 internal circuit diagram
BCY-W2/D3.1
16*32 LED Matrix
8*8 led matrix
HT48R10A-1
L.E.D Moving Display Board
LED MOVING DISPLAY CIRCUIT diagram
HT1632
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1997 - Ismeca U.S.A
Abstract: ismeca
Text: another. The walking beam design allows for the smooth and fast advancement of components down a linear , plate area and the flexibility of the walking beam allow for the integration of multiple processes on , products supported and availability. http://developer.intel.com/ design / flcomp/devtools/index.htm http , system. Since proven and existing modules are used for the input mechanism, walking beam and * Other , Accurate and positive cam-driven system Lead frame or tube input Outputs to tube, tape, lead frame or
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2004 - WIPER
Abstract: wiper 100 AN92 X9116 X9312 X9313 X9315 X9318 X9319 X9C102
Text: INC and CS control signals on power-up can lead to inadvertent store operations, " walking wipers , . 1-888-INTERSIL or 321-724-7143 | Intersil ( and design ) is a registered trademark of Intersil Americas , CONNECTIONS Intersil Corporation reserves the right to make changes in circuit design , software and /or , position from internal EEPROM on power up. To change the wiper position and to store a new default wiper setting, they use INC, U/D, and CS pins. The INC and CS signals are also NORed together, internally, to
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1996 - beam Tube
Abstract: H Beam lead frame 28F001BX 28F002BC 28F002BX 28F010 28F020 28F200BX
Text: multiple finger walking beam that moves components from one processing station to another. The walking beam design allows for the smooth and fast advancement of components down a linear track, enabling , on a single system. Since proven and existing modules are used for the input mechanism, walking , HANDLERS ISMECA U.S.A. TMBL s s s s s s Accurate and positive cam-driven , feeders feed components from either tubes or in leadframe form. The large base plate area and the
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28F004BE,
28F004BL,
28F004BV,
28F004BX,
28F004SC,
28F400BL,
28F400BV,
28F400BX,
28F400CE,
28F400CV,
beam Tube
H Beam
lead frame
28F001BX
28F002BC
28F002BX
28F010
28F020
28F200BX
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2008 - circuit diagram of pedometer
Abstract: AMI602 pedometer mechanical SENSOR that is in pedometer mems pedometer ,electronic circuit magnetometer, circuit diagram of mechanical pedometer TH10 TH13 pressure sensor sp 13
Text: step number (High byte ) number and walking time 2byte step number ( | ) (sec), then transfer to , and Sensitivity Value range Step number0 0xFFFFFFFF Walking time0 0xFFFFFFFF Please refer , status transferred from Walking Check to Walking , 6 steps are added to the step number and the time for , The AMI602 is a motion sensor that integrates a 3-axis MI (magnetoimpedance) sensor and a 3 , amplifier capable of compensating each sensors offset and setting appropriate sensitivity values, a
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AMI602
12bitAD
30below
30below10RH)
168Hr
200Hr
circuit diagram of pedometer
pedometer
mechanical SENSOR that is in pedometer
mems pedometer
,electronic circuit magnetometer,
circuit diagram of mechanical pedometer
TH10
TH13
pressure sensor sp 13
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2010 - Not Available
Abstract: No abstract text available
Text: byte ) number and walking time 2byte ï¼step number ( | ) (sec), then transfer to the 3byte , and Sensitivity Value range Step numberï¼0 â 0xFFFFFFFF Walking timeï¼0 â 0xFFFFFFFF , Conditions Stop to Walking Check 3-axis accelerometer data at present moment and 2 seconds (TH0) before are compared, and found that the difference exceeds TH1. Walking Check to Stop 3-axis accelerometer data , are added to the step number and the time for the 6 steps is added to walking time. Walking to
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AMI602F
12bitAD
below10ï
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200Hr
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2009 - Not Available
Abstract: No abstract text available
Text: Firmware version 7 GET_MES_PED_ AUTO_SUSPEN D Pass 0x32 Read out walking step number and , status transferred from Walking Check to Walking , 6 steps are added to the step number and the time for , Description The AMI602 is a motion sensor that integrates a 3-axis MI (magnetoimpedance) sensor and a 3 , amplifier capable of compensating each sensors offset and setting appropriate sensitivity values, a , , a constant voltage circuit for power control and a 8032 micro-processor controlling each circuit
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12bitAD
below10ï
168Hr
200Hr
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2011 - aichi
Abstract: No abstract text available
Text: -step walking period in 6-step judgment ï¼*1ï¼Step is accepted when both upward and downward movements are , . 2 [ 3 ] Block Diagram . 2 [ 4 ] Dimensions and marking Layout , . 8 13-2. Power OFF and Power ON , . 34 [ 19 ] Environmental and Mechanical Characteristics
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200Hr
AMI603.
111207C
aichi
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1997 - ELECTRONIC DEVICES INC
Abstract: "Resistor array" AN92 X9312 X9313 X9314 X9316
Text: power-up can lead to inadvertent store operations, " walking wipers" and other unexpected results. One of the results of improper connection of the INC and CS pins is a walking wiper. This phenomenon is characterized by an automatic increment or decrement of the wiper on power-up. Detecting both the CS and INC , INC pin to be "clocked" from HIGH to LOW. The walking wiper condition is possible when the CS and , , September 1996 On Xicor's X9312, X9C102/103/503/104, X9313, X9314, and X9316 E2POTs, the INC and CS pins
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X9312,
X9C102/103/503/104,
X9313,
X9314,
X9316
ELECTRONIC DEVICES INC
"Resistor array"
AN92
X9312
X9313
X9314
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