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Showing below up to 250 results in range #251 to #500.
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- NU32
- NU32: 16x2 LCD
- NU32: A Detailed Look at Programming the PIC32 on the NU32
- NU32: Analog-to-Digital Conversion
- NU32: Analog Input
- NU32: Bootloading from command line
- NU32: Counters and Timers
- NU32: Digital Input and Output
- NU32: Driving RC servo motors
- NU32: Driving a stepper motor
- NU32: I2C Synchronous Serial Communication
- NU32: Input Capture
- NU32: Introduction to the PIC32
- NU32: Output Compare, PWM, and Analog Output
- NU32: Pulse Width Modulation
- NU32: Quickstart
- NU32: SPI Synchronous Serial Communication
- NU32: Serial Communication with the PC
- NU32: Software to Install
- NU32: Starting a New Project and Putting it on the NU32
- NU32: UART Asynchronous Serial Communication
- NU32: Using the Comparator
- NU32: Using the MAX9918 current sensor
- NU32: Using the MCP42X1 SPI Digital Potentiometer
- NU32: Using the TB6612 H-Bridge
- NU32: Using the dsPIC33FJ12MC201 QEI to SPI board
- NU32: VC0706 Serial Camera
- NU32: Watchdog Timer
- NU32: What is in the NU32 Kit
- NU32 Book Errata
- NU32 Electronics and Mechatronics Kits
- NU32 Software
- NU32 Videos
- NU32v2: A Detailed Look at Programming the PIC32
- NU32v2: Analog Input
- NU32v2: Benchmark Test
- NU32v2: Counters and Timers
- NU32v2: Digital I/O Assembly Code
- NU32v2: Digital Input and Output
- NU32v2: Digital Signal Processing
- NU32v2: Flash Self-Programming
- NU32v2: I2C Synchronous Serial Communication
- NU32v2: Input Capture
- NU32v2: Interrupts
- NU32v2: Introduction to the PIC32
- NU32v2: Nokia 5110 LCD
- NU32v2: Output Compare, PWM, and Analog Output
- NU32v2: SPI Synchronous Serial Communication
- NU32v2: Serial Communication with the PC
- NU32v2: Simple Analog Input
- NU32v2: Software to Install
- NU32v2: Starting a New Project and Putting it on the NU32v2
- NU32v2: The NU32v2 Serial Bootloader and PC Application
- NU32v2: UART Asynchronous Serial Communication
- NU32v2: Using the L293D H-Bridge
- NU32v2: Using the LS7183 Quadrature Clock Converter
- NU32v2: Using the Simulator
- NU32v2: Watchdog Timer
- NU32v2: What is in the NU32v2 Kit
- NUScope
- NUScope 2011
- NatNetLinux
- Node.js
- Northwestern Design Competition
- OBSOLETE NU32 video page
- Old Index Page
- Operational Amplifiers (Op-Amps)
- Optical Locating
- Optics
- Opto-isolators
- Optointerrupter
- Optoreflector
- PC/104 stacks and Matlab xPC
- PC104 Break Out Board
- PC104 Overview
- PC104 Power
- PCB Artist
- PIC/C18 Compiler Tips and Troubleshooting
- PIC16F684
- PIC16F684 Registers
- PIC18F4520: Analog Inputs
- PIC18F4520: Comparator
- PIC18F4520: Digital Inputs
- PIC18F4520: Digital Outputs
- PIC18F4520: PWM Motor Control
- PIC18F4520: Serial Digital-to-Analog Conversion
- PIC18F4520: Timers
- PIC32MX: Analog Inputs
- PIC32MX: Benchmarking Mathematical Operations
- PIC32MX: Digital Inputs
- PIC32MX: Digital Outputs
- PIC32MX: Driving a Stepper Motor
- PIC32MX: Encoder Motor Control
- PIC32MX: FFT of Analog Input
- PIC32MX: High-speed Wireless Communication
- PIC32MX: I2C
- PIC32MX: I2C Communication between PIC32s
- PIC32MX: I2C DAC
- PIC32MX: I2C EEPROM
- PIC32MX: I2C External RAM
- PIC32MX: Interfacing to a Secure Digital (SD) Flash Card
- PIC32MX: Interfacing with Force Sensors from a Scale
- PIC32MX: Inverse FFT
- PIC32MX: PWM Motor Control
- PIC32MX: Parallel LCD
- PIC32MX: RS232
- PIC32MX: SPI Communication between PIC32s
- PIC32MX: SPI DAC
- PIC32MX: SPI EEPROM
- PIC32MX: SPI External RAM
- PIC32MX: Servo Control
- PIC32MX: Sinusoidal Analog Output
- PIC32MX: USB Communication
- PIC32MX: USB Communication with a PC
- PIC32MX: XBee Wireless Round-trip Latency
- PIC32 Example: HelloWorld
- PIC32 in DIP package
- PIC32book
- PIC 18f4550
- PIC Analog-Digital-Converter Example
- PIC MCUs: 4520 Board
- PIC MCUs: Capabilities of PIC18F4520
- PIC MCUs: Capabilities of PIC32MX
- PIC MCUs: Hardware and Connections
- PIC MCUs: Software
- PIC Microcontroller
- PIC Microcontrollers with C18 Compiler
- PIC Microcontrollers with CCS Compiler
- PIC Motor Control and Serial Port Example
- PIC Motor Control with EEPROM and Interactive Menu Example
- PIC PWM Motor Driver
- PIC RS232
- PIC Servo Controller
- PIC USB
- PIC computation time benchmarks
- PICkit 1
- PPOD-mini: 6-DOF Shaker
- PPOD-mini Project
- PPOD Experiments with a Textured Plate
- PPOD User Guide
- Parallax GPS (Global Positioning System) Receiver Module
- Passive Filters
- Persistence-of-Vision Display
- Phase-Sensitive Detection
- Photocell
- Photodiodes and Phototransistors
- Pic32book
- Piezoactuators
- Portable Sit-to-Stand Device
- Potentiometers
- Practice Making a PCB
- Pressure Sensing
- Printing Circuit Boards
- Processing
- ProcessingPIC32Communication
- Programmable Stiffness Joint
- Programming HID Bootloader on PIC32
- Programming the blue board
- Projects and miscellaneous
- Prototyping circuits
- Pulse Width Modulation
- Pulse width modulation
- QNX
- Quadrature decoding in hardware, or just counters
- Quadrature decoding in software
- RC Servo Theory
- RC and RL Exponential Responses
- RGB LEDs
- RGB Swarm Robot Project Documentation
- RGB Swarm Robot Project E-puck Code (outdated)
- RGB Swarm Robot Quickstart Guide
- Reading RFID tags
- Real-Time Linux for TrackCam
- Reed Switch
- Remote Controlled Wiitar
- Resistive Touchscreen
- Resistors (Ohm's Law), Capacitors, and Inductors
- Robot Club
- Robot Drummer
- Robot Helicopter Project
- Robot Operating System
- Robot Snake
- Rock Paper Scissors Machine
- Rotary Encoder
- Rotational Stiffness
- Running RC servos
- SPI - Serial Peripheral Interface - on the PIC
- SPI communication between PICs
- Sample code for most PIC18F4520 operations
- Sampling-Based Planning
- Schmitt Trigger
- Schmitt Triggers
- Second Order Active Filters
- Semiconductors
- Sensing optical tape
- Sensing retroreflective blocks
- Sensor Overview
- Sensoray 526 Data Aquisition Card
- Sensors
- Serial communication with Matlab
- Servo skeleton with fast & slow interrupts
- Setup, Use, and Modeling of Harmonic Drive Motors with Junus Amps
- Shielding, Grounding, Noise Suppression, etc.
- Solderboard
- Solenoid Theory
- Stability of an Assembly Project
- Stepper Motor Circuits
- Stepper Motor Theory
- Stepper motor control with the PIC
- Storing constant data in program memory
- Strain Gauge
- Swarm Robot Project Documentation
- Swarm Robot Project E-puck Code
- Swarm Robot Project Overview
- Swarm Robot Project Simulator
- Swarm Robot Quickstart Guide
- Swarm Robot Theoretical Research
- Switch Debouncing
- Tektronix CFG253 Function Generator
- Tektronix TDS220 Oscilloscope
- Temp
- Test
- The Gibbot
- The PC/104 Lab Kit
- The brains of the operation
- The sandbox
- Thermistor
- Three-Axis Accelerometer
- Three-speaker Chladni Patterns
- Tools in the lab and shop
- UBW32 Board
- UDP Communications between Target and Host PC
- USB Communication Board
- USB Communication using PIC microcontrollers
- USB bootloading
- USB communication between PICs
- USB communication with C18 and MPLAB
- USB communication with CCS
- USB communication with PC
- Ultrasonic ranging
- Unipolar Stepper Motor Driver Circuit
- Useful code for the blue board
- Using CircuitMaker
- Using LEDs & IREDs
- Using Opto-Isolators to Prevent Interference
- Using RS-232 and Printing to LCD
- Using Solderless Breadboard
- Using a laser
- Using the Basic Stamp Microcontroller
- Using the Host Scope