Posts
- Category: AMPLIFIERS
- Category: arm microcontroller
- Category: Article
- atmel microcontroller : SERIAL COMMUNICATIONS in atmega
- Ultrasonic Sensor working principle (1)
- 16-bit Timer1 / Counter1 in ATMega 8535
- 8-bit Timer/Counter0 with PWM
- A multichannel taste sensor
- A special type of relay
- Absolute dB scales
- Absolute Optical Encoders ( Rotary Encoders )
- ACCURACY AND PRECISION IN ELECTRONICS MEASUREMENT
- Ackerman Steering (1)
- ADC 0808 (2)
- ADC in ATMega 8535
- Advantages of IC technology
- all about electronic cigarette (2)
- All About Radiant Floor Heating and Cooling (part 1)
- all about solar cell (1)
- Amplifier impedances
- Amplifiers ( controlling signal )
- AMPLIFIERS AND ACTIVE DEVICES
- AMPLIFIERS AND ACTIVE DEVICES : From electric to electronic
- analog to digital ADC 0804
- ANALOG TO DIGITAL CONVERSION PROCESS
- Analog to Digital Converter (ADC) in AVR ATMega 8535
- Analog to Digital Converter (ADC) on ATMega8535 (1)
- Analog to Digital Converter : ADC MAX 154/158
- ARM Embedded Systems
- ARM Processor Fundamentals
- ARM7 Microprocessor Family
- Arm7 the i9 Phone Processor
- AT89S52 MICROCONTROLLER (4)
- atmega development board with rs232
- ATmega PCB Design with RS232 (1)
- ATmega16 ARCHITECTURE OVERVIEW
- Atmel Atmega 8 series microcontroller
- atmel microcontroller : Serial Peripheral Interface
- atmel microcontroller : SERIAL USART in atmega
- Attaching an LCD Display
- Attenuators (passive devices)
- AVR ATMEGA 128
- AVR ATMega8
- AVR Internal Hardware
- AVR Internal Hardware Port B
- AVR Internal Hardware Port D
- AVR Internal Hardware TIMER0
- AVR Internal Hardware TIMER1
- AVR Internal Registers
- Baketan, the ghost sensor
- Band theory of solids
- Basic circuit for USB developers
- basic microcontroller
- BIPOLAR JUNCTION TRANSISTORS
- Bloom Energy the Green Power
- Bluetooth communication Technology
- Body Heat Sensor with PIR (RE200B)
- BOOLEAN MANIPULATION
- Build your home security system
- C language for microcontroller Programming
- Clamper circuits
- Clipper circuits
- Computer Architecture
- connecting microcontroler and computer with usb comunication (2)
- CONTROL PROTOCOLS FOR WIRELESS SENSOR NETWORKS (1)
- Create a realtime timer on ATMega8535 (1)
- Current mirrors Transistors
- Data acquisition system
- Data converters (ADC / DAC) : PCF8591
- DC MOTOR DRIVES : Pulse Width Modulation (1)
- Decibels (amplifier's gain)
- Description and Schematic of Optocoupler
- Digital Compass For Mobile Robot Navigation
- Digital Logic Fundamental (1)
- DIGITAL TEMPERATURE SENSOR : SMT16030
- Digital Watch
- Digital-to-Analog Conversion in AVR Atmel atmega16 (1)
- Diode switching circuits
- DIODES AND RECTIFIERS part 1 Definition and introduction
- DIODES AND RECTIFIERS part 3 (Diode ratings)
- DIODES AND RECTIFIERS Solar cells
- Doppler Sensors (2)
- DS 1821 Programmable Digital Termostat
- DS 1904 RTC iButton
- DS1626/1726 3-Wire Digital Thermometer (1)
- Electric Control Using a Triac
- electric driver motor (1)
- electrical article : RADIANT FLOOR HEAT CONCEPTS AND DETAILS (1)
- Electrical Pressure Sensors
- electrical switch
- ELECTRICAL UNITS
- electricity
- Electricity and Electronics Study
- Electricity: electric current, resistance, power, voltage (1)
- ELECTROMOTIVE FORCE
- ELECTRONIC THERMOSTAT SOLUTION CIRCUIT
- Electronics cable programmer
- Electrons and “holes”
- EM4095 RFID Reader (2)
- Embedded design
- External Interrupts in AVR ATMega 8535
- FIBEROPTIC SENSOR COMPONENTS
- Field-effect-controlled thyristors (1)
- FIGARO TGS 2201 Gas Sensors (1)
- fingerprint : MS8800 S-Bio
- Fire Alarm System (1)
- Fire Sensor (Hamamatsu UVTRON)
- Flow Sensors
- Fuzzy logic
- Fuzzy Systems Technology
- Geminoid Humanoid robot express like human
- Generate PWM Signals to the AVR Microcontroller
- Geomagnetic Sensors (compass) for an autonomous platform
- Global Positioning System (GPS)
- GP2D12 Interface (Infrared Range Finder)
- Gunn diode, Shockley diode and Constant-current diodes (2)
- How hydropower work? (2)
- How Linear Power Supply Work - Rectifier
- How Linear Power Supply Work - Regulator (2)
- How Oxygen sensor work (1)
- How Relays Work
- how to jtagged
- How to Make PIC Programmer (TUTORIAL)
- how to use interupts
- Humidity Sensor : HS 12P/15P
- image proccessing sensor (1)
- Incremental Optical Encoders ( The Rotary Encoder ) (1)
- Inductor commutating circuits
- Industrial Automation
- input and output port in avr atmega 8535
- Integrated Digital Compass Sensor HMC6052
- Integrated resource power planning
- Intel 82C55A Chip Architecture
- Interrupt Controller
- Interrupt Vectors in ATmega8535
- investments in electricity generation
- ISP programmer ( parallel Downloader )
- JTAG : The TAP controller
- Jtag Cable (1)
- JTAG Emulator for ARM
- JTAG Parallel Cable Schematic
- JTAG Programmer
- JTAG Programmer Tutorial
- JTAG Tutorial : On-Chip Debugging
- Junction diodes
- keypad on AVR microcontroler
- Laser diodes (4)
- linux microcontroller programming
- Making Electricity with Hydrogen
- Making Scrolling Text On Dot Matrix
- MAN/WAN Applications
- maxim serial integreted circuit : max232
- MCU Features on PIC16 series
- Mechanical Magnetic Compasses Sensor
- Memory usage in avr microcontroler
- Meter check of a diode
- Meter check of a transistor
- Microprocessor Evaluation Board
- Microprocessors
- Most popular industrial robot
- motor driver program in the AVR microcontrollers using BASCOM
- Multi Degree of Freedom Vehicles
- Multichannel Digital Temperature Sensor
- Neural Network (1)
- OPERATIONAL AMPLIFIERS : part 10 (Differentiator and integrator circuits) (1)
- OPERATIONAL AMPLIFIERS : part 11 (Positive feedback)
- OPERATIONAL AMPLIFIERS : part 12 (Practical considerations)
- OPERATIONAL AMPLIFIERS : part 13 (Offset voltage)
- OPERATIONAL AMPLIFIERS : part 14 (Bias current)
- OPERATIONAL AMPLIFIERS : part 15 (Drift and Frequency response)
- OPERATIONAL AMPLIFIERS : part 16 (Input to output phase shift)
- OPERATIONAL AMPLIFIERS : part 17 (Operational amplifier models)
- OPERATIONAL AMPLIFIERS : part 2 (The "operational" amplifier) (2)
- OPERATIONAL AMPLIFIERS : part 3 (Negative feedback)
- OPERATIONAL AMPLIFIERS : part 4 (Divided feedback)
- OPERATIONAL AMPLIFIERS : part 5 (An analogy for divided feedback)
- OPERATIONAL AMPLIFIERS : part 6 (Voltage-to-current signal conversion)
- OPERATIONAL AMPLIFIERS : part 7 (Averager and summer circuits)
- OPERATIONAL AMPLIFIERS : part 8 (Building a differential amplifier)
- OPERATIONAL AMPLIFIERS : part 9 (The instrumentation amplifier)
- Optocoupler sensors
- Other diode technologies
- Overview of Global Positioning Systems (GPSs) (1)
- Parallac PING the Ultrasonic Distance Sensor
- Parking Sensors on The Car
- PCI Interface
- Peak detector
- Personal Computers Based vs PIC micro MCU Based Program Development
- Photocell
- Photodiodes
- PIC 16F84A (18 pin)
- PIC 16F872 (28 pin)
- PIC 18F Microcontroller Series
- PIC Programming Tutorial With PICALL Software
- PIC16 Microcontrollers
- PIC16F877A (40 pin) (1)
- PIC16F88 (18 pin)
- PLC basic elements
- Potentiometer (4)
- potentiometer : water level sensor
- PPI 8255 for DAC
- Programmable Logic Controller (1)
- Programmable Logic Controllers (PLC) (1)
- programming The Microchip PIC in CCS C
- Programming the PIC Microcontroller
- QR12 Optical Encoder Design Features
- Quantum Detectors
- Radio-frequency identification (RFID) is
- Real-Time Operating System (RTOS) Simulator
- Rectifier circuits
- Resistor ( how to read the resistor's band )
- RFID (Radio Frequency Identification)
- Robot's technology
- RS-232 Level Converter
- RS-232 with max232 schematic diagram (1)
- RSLogix Allen Bradley
- Sampling,Quantization, and Encoding
- Semiconductor manufacturing techniques (1)
- Sensor : Data Acquisition and Readout
- Sensor Application : Types of Temperature Sensors (Part1)
- Sensor Application : Types of Temperature Sensors (Part2)
- Sensor Signal Conditioning : bridge circuit part1 (2)
- Sensor Signal Conditioning : bridge circuit part2
- Sensors and Transducers
- SENSORS FOR DEAD RECKONING
- SEO AutoSense sensors
- serial communication microcontroller and mobile phones (4)
- Serial Communication RS-232
- Serial Peripheral Interface (SPI) in AVR ATMega 8535 (2)
- Shift Register
- Signal processing in ARM processor
- Single-ended and differential amplifiers
- Sound sensor
- Special-purpose diodes
- Static electricity
- stepper motor : definition and diagram (2)
- Switch : Normally Closed And Normally Open
- TCS230 colors sensors (1)
- technology in Mars Explorer
- Temperature and Humidity Sensor
- temperature sensor
- Temperature sensor with network access
- TGS2610-D00 gas sensors
- The cascode amplifier
- The common-base amplifier (1)
- The common-collector amplifier
- The differences of PLC and DCS
- The excess of PIC Microcontroller
- The global electrical power scene
- THE KARNAUGH MAP
- The Network Solution
- The Nexus standard and the components
- The P-N junction
- The Quantum physics (1)
- THE SAFE USE OF ELECTRICITY IN THE HOME
- The Shockley Diode (3)
- The Silicon-Controlled Rectifier (SCR)
- The Transition to Electric Vehicles
- The Unijunction Transistor (UJT)
- The USB Controller
- The value of electricity
- THYRISTORS : The DIAC
- THYRISTORS : The Silicon-Controlled Switch (SCS)
- THYRISTORS part 1 : Hysteresis (1)
- THYRISTORS part 2 : Gas discharge tubes
- THYRISTORS part 6 : The TRIAC
- THYRISTORS part 7 : Optothyristors
- Time delay relay
- TIMER ON DST-128 AVR STAMP
- Touch Switch And Limiting Switch
- Transistor : Biasing techniques
- Transistor Active mode operation
- Transistor as a switch
- Transistor ratings and packages
- Transistor:Input and output coupling
- transistors : Biasing calculations
- Transistors : Feedback
- Transistors : The common-emitter amplifier
- Tricycle Drive
- Tutorial of PROGRAMMING THE ATmega16
- Typical Mobility Configurations
- Ultrasonic TOF Systems (1)
- Ultrasonic Transponder Trilateration (1)
- Understanding JTAG fuses and Security
- USB Microcontroller Programmer
- USB Microcontrollers
- USB162 module
- Using JTAG Boundary Scan Interface
- USING RS485 serial communication
- Using the I2C protocol
- Using the SPI protocol
- Using the UART
- Valence and Crystal structure
- Varicap or varactor diodes
- Various Kinds of Sensors
- Video Game Player Technology
- Voltage multipliers (5)
- water sensor : SENSOR LOGIC AND FUNCTION
- What Is an Embedded System?
- what is jtag : JTAG overview
- What's the Electrical Current
- What’s an Embedded System?
- Why use the PIC microcontrollers
- wireless LAN (WLAN) Technology
- Wireless Microcontroller : Jennic JN5148-001 (2)
- Wireless security systems
- Wireless Sensor Network
- WIRELESS SENSOR TECHNOLOGY (1)
- XBee and XBee-PRO OEM RF Modules, the low-power wireless sensor networks (1)
- XRAM microcontroler AVR
- Zener diodes
- Category: BASCOM AVR
- Attaching an LCD Display
- AVR Internal Hardware
- AVR Internal Hardware Port B
- AVR Internal Hardware Port D
- AVR Internal Hardware TIMER0
- AVR Internal Hardware TIMER1
- AVR Internal Registers
- Electronics cable programmer
- EM4095 RFID Reader (2)
- ISP programmer ( parallel Downloader )
- keypad on AVR microcontroler
- Memory usage in avr microcontroler
- motor driver program in the AVR microcontrollers using BASCOM
- USB162 module
- USING RS485 serial communication
- Using the I2C protocol
- Using the SPI protocol
- Using the UART
- XRAM microcontroler AVR
- Category: diode and rectifier
- Clamper circuits
- Clipper circuits
- Diode switching circuits
- DIODES AND RECTIFIERS part 1 Definition and introduction
- DIODES AND RECTIFIERS part 3 (Diode ratings)
- DIODES AND RECTIFIERS Solar cells
- Gunn diode, Shockley diode and Constant-current diodes (2)
- Inductor commutating circuits
- Laser diodes (4)
- Meter check of a diode
- Other diode technologies
- Peak detector
- Photodiodes
- Rectifier circuits
- Special-purpose diodes
- Varicap or varactor diodes
- Voltage multipliers (5)
- Zener diodes
- Category: JTAG
- Arduino Microcontroller System
- how to jtagged
- JTAG : The TAP controller
- Jtag Cable (1)
- JTAG Emulator for ARM
- JTAG Parallel Cable Schematic
- JTAG Programmer
- JTAG Programmer Tutorial
- JTAG Programming
- JTAG Tutorial : Chaining JTAG devices together
- JTAG Tutorial : On-Chip Debugging
- The Nexus standard and the components
- Understanding JTAG fuses and Security
- Using JTAG Boundary Scan Interface
- Category: microcontroller
- atmel microcontroller : SERIAL COMMUNICATIONS in atmega
- 16-bit Timer1 / Counter1 in ATMega 8535
- 8-bit Timer/Counter0 with PWM
- ADC in ATMega 8535
- Advantages of IC technology
- All About ATMega8535
- Analog to Digital Converter (ADC) in AVR ATMega 8535
- Arduino Microcontroller System
- ARM Processor Fundamentals
- ARM7 Microprocessor Family
- Arm7 the i9 Phone Processor
- AT89S52 MICROCONTROLLER (4)
- atmega development board with rs232
- ATmega PCB Design with RS232 (1)
- ATmega16 ARCHITECTURE OVERVIEW
- Atmel Atmega 8 series microcontroller
- atmel microcontroller : Serial Peripheral Interface
- atmel microcontroller : SERIAL USART in atmega
- AVR ATMEGA 128
- AVR ATMega8
- Basic circuit for USB developers
- basic microcontroller
- C language for microcontroller Programming
- connecting microcontroler and computer with usb comunication (2)
- Create a realtime timer on ATMega8535 (1)
- Digital-to-Analog Conversion in AVR Atmel atmega16 (1)
- External Interrupts in AVR ATMega 8535
- how to use interupts
- image proccessing sensor (1)
- input and output port in avr atmega 8535
- Intel 82C55A Chip Architecture
- Interrupt Controller
- Interrupt Vectors in ATmega8535
- MCU Features on PIC16 series
- Microprocessors
- Minimum System for ATMega
- Personal Computers Based vs PIC micro MCU Based Program Development
- PIC 16F84A (18 pin)
- PIC 18F Microcontroller Series
- PIC Programming Tutorial With PICALL Software
- PIC16 Microcontrollers
- Programming the PIC Microcontroller
- Serial Peripheral Interface (SPI) in AVR ATMega 8535 (2)
- Shift Register
- Signal processing in ARM processor
- The excess of PIC Microcontroller
- The USB Controller
- Tutorial of PROGRAMMING THE ATmega16
- USB Downloader for AVR microcontroler
- USB Microcontroller Programmer
- USB Microcontrollers
- USB162 module
- Using JTAG Boundary Scan Interface
- What Is an Embedded System?
- What’s an Embedded System?
- Why use the PIC microcontrollers
- Wireless Microcontroller : Jennic JN5148-001 (2)
- XBee and XBee-PRO OEM RF Modules, the low-power wireless sensor networks (1)
- Category: op-amp
- OPERATIONAL AMPLIFIERS : part 10 (Differentiator and integrator circuits) (1)
- OPERATIONAL AMPLIFIERS : part 11 (Positive feedback)
- OPERATIONAL AMPLIFIERS : part 12 (Practical considerations)
- OPERATIONAL AMPLIFIERS : part 13 (Offset voltage)
- OPERATIONAL AMPLIFIERS : part 14 (Bias current)
- OPERATIONAL AMPLIFIERS : part 15 (Drift and Frequency response)
- OPERATIONAL AMPLIFIERS : part 16 (Input to output phase shift)
- OPERATIONAL AMPLIFIERS : part 17 (Operational amplifier models)
- OPERATIONAL AMPLIFIERS : part 3 (Negative feedback)
- OPERATIONAL AMPLIFIERS : part 4 (Divided feedback)
- OPERATIONAL AMPLIFIERS : part 5 (An analogy for divided feedback)
- OPERATIONAL AMPLIFIERS : part 6 (Voltage-to-current signal conversion)
- OPERATIONAL AMPLIFIERS : part 7 (Averager and summer circuits)
- OPERATIONAL AMPLIFIERS : part 8 (Building a differential amplifier)
- OPERATIONAL AMPLIFIERS : part 9 (The instrumentation amplifier)
- Rectifier circuits
- Single-ended and differential amplifiers
- Category: PCB Design
- ATmega PCB Design with RS232 (1)
- AVR Internal Hardware TIMER1
- DC MOTOR DRIVES : Pulse Width Modulation (1)
- Electronics cable programmer
- How to Make PIC Programmer (TUTORIAL)
- ISP programmer ( parallel Downloader )
- keypad on AVR microcontroler
- serial communication microcontroller and mobile phones (4)
- Shift Register
- USB Downloader for AVR microcontroler
- USING RS485 serial communication
- Category: PIC microcontroller
- Category: PLC
- Category: Program
- AVR Internal Hardware
- AVR Internal Hardware TIMER0
- AVR Internal Hardware TIMER1
- AVR Internal Registers
- EM4095 RFID Reader (2)
- GP2D12 Interface (Infrared Range Finder)
- keypad on AVR microcontroler
- linux microcontroller programming
- Memory usage in avr microcontroler
- motor driver program in the AVR microcontrollers using BASCOM
- OPERATIONAL AMPLIFIERS : part 10 (Differentiator and integrator circuits) (1)
- PIC Programming Tutorial With PICALL Software
- programming The Microchip PIC in CCS C
- TIMER ON DST-128 AVR STAMP
- USB Microcontroller Programmer
- USING RS485 serial communication
- Using the I2C protocol
- Using the SPI protocol
- Using the UART
- Why use the PIC microcontrollers
- Category: quantum physic
- Category: Review
- 16-bit Timer1 / Counter1 in ATMega 8535
- 8-bit Timer/Counter0 with PWM
- ADC 0808 (2)
- all about electronic cigarette (2)
- All About Radiant Floor Heating and Cooling (part 1)
- analog to digital ADC 0804
- Analog to Digital Converter : ADC MAX 154/158
- Body Heat Sensor with PIR (RE200B)
- Data converters (ADC / DAC) : PCF8591
- DIGITAL TEMPERATURE SENSOR : SMT16030
- DS 1821 Programmable Digital Termostat
- DS 1904 RTC iButton
- DS1626/1726 3-Wire Digital Thermometer (1)
- electrical article : RADIANT FLOOR HEAT CONCEPTS AND DETAILS (1)
- electricity
- FIGARO TGS 2201 Gas Sensors (1)
- fingerprint : MS8800 S-Bio
- Fire Sensor (Hamamatsu UVTRON)
- Geomagnetic Sensors (compass) for an autonomous platform
- How Oxygen sensor work (1)
- Humidity Sensor : HS 12P/15P
- Integrated Digital Compass Sensor HMC6052
- Interrupt Vectors in ATmega8535
- maxim serial integreted circuit : max232
- Mechanical Magnetic Compasses Sensor
- Parallac PING the Ultrasonic Distance Sensor
- Parking Sensors on The Car
- Passive Infrared sensor (PIR) motion detector (8)
- PING)))™ Ultrasonic Distance Sensor (1)
- PPI 8255 for DAC
- Radio-frequency identification (RFID) is
- RFID (Radio Frequency Identification)
- RS-232 Level Converter
- Serial Peripheral Interface (SPI) in AVR ATMega 8535 (2)
- SRF04 Ultrasonic sensor
- stepper motor : definition and diagram (2)
- TCS230 colors sensors (1)
- Temperature and Humidity Sensor
- TGS2610-D00 gas sensors
- Ultrasonic Transponder Trilateration (1)
- wireless LAN (WLAN) Technology
- Wireless Microcontroller : Jennic JN5148-001 (2)
- Wireless Sensor Network
- Wiznet : Wiz110SR serial to ethernet converter (2)
- XBee and XBee-PRO OEM RF Modules, the low-power wireless sensor networks (1)
- Category: Robotics
- Ackerman Steering (1)
- Digital Compass For Mobile Robot Navigation
- Doppler Sensors (2)
- Fire Sensor (Hamamatsu UVTRON)
- Fuzzy Systems Technology
- Geomagnetic Sensors (compass) for an autonomous platform
- Integrated Digital Compass Sensor HMC6052
- Mechanical Magnetic Compasses Sensor
- Most popular industrial robot
- Multi Degree of Freedom Vehicles
- SEO AutoSense sensors
- Touch Switch And Limiting Switch
- Tricycle Drive
- Typical Mobility Configurations
- Ultrasonic TOF Systems (1)
- Ultrasonic Transponder Trilateration (1)
- Category: Schematic Diagram
- Ultrasonic Sensor working principle (1)
- Arduino Microcontroller System
- ATmega PCB Design with RS232 (1)
- AVR Internal Hardware
- AVR Internal Hardware TIMER0
- AVR Internal Hardware TIMER1
- Clamper circuits
- Clipper circuits
- Data converters (ADC / DAC) : PCF8591
- DC MOTOR DRIVES : Pulse Width Modulation (1)
- Description and Schematic of Optocoupler
- Diode switching circuits
- DIODES AND RECTIFIERS Solar cells
- DS 1821 Programmable Digital Termostat
- Electronics cable programmer
- EM4095 RFID Reader (2)
- Field-effect-controlled thyristors (1)
- FIGARO TGS 2201 Gas Sensors (1)
- Fire Alarm System (1)
- GP2D12 Interface (Infrared Range Finder)
- Gunn diode, Shockley diode and Constant-current diodes (2)
- How Linear Power Supply Work - Rectifier
- How Linear Power Supply Work - Regulator (2)
- Inductor commutating circuits
- ISP programmer ( parallel Downloader )
- keypad on AVR microcontroler
- Laser diodes (4)
- maxim serial integreted circuit : max232
- Meter check of a diode
- Minimum System for ATMega
- OPERATIONAL AMPLIFIERS : part 10 (Differentiator and integrator circuits) (1)
- OPERATIONAL AMPLIFIERS : part 11 (Positive feedback)
- OPERATIONAL AMPLIFIERS : part 12 (Practical considerations)
- OPERATIONAL AMPLIFIERS : part 13 (Offset voltage)
- OPERATIONAL AMPLIFIERS : part 14 (Bias current)
- OPERATIONAL AMPLIFIERS : part 16 (Input to output phase shift)
- OPERATIONAL AMPLIFIERS : part 17 (Operational amplifier models)
- OPERATIONAL AMPLIFIERS : part 2 (The "operational" amplifier) (2)
- OPERATIONAL AMPLIFIERS : part 3 (Negative feedback)
- OPERATIONAL AMPLIFIERS : part 4 (Divided feedback)
- OPERATIONAL AMPLIFIERS : part 5 (An analogy for divided feedback)
- OPERATIONAL AMPLIFIERS : part 6 (Voltage-to-current signal conversion)
- OPERATIONAL AMPLIFIERS : part 8 (Building a differential amplifier)
- OPERATIONAL AMPLIFIERS : part 9 (The instrumentation amplifier)
- Other diode technologies
- Peak detector
- Photodiodes
- Rectifier circuits
- RS-232 with max232 schematic diagram (1)
- serial communication microcontroller and mobile phones (4)
- Shift Register
- Single-ended and differential amplifiers
- Special-purpose diodes
- TGS2610-D00 gas sensors
- The Shockley Diode (3)
- The Silicon-Controlled Rectifier (SCR)
- The Unijunction Transistor (UJT)
- THYRISTORS : The DIAC
- THYRISTORS : The Silicon-Controlled Switch (SCS)
- THYRISTORS part 2 : Gas discharge tubes
- THYRISTORS part 6 : The TRIAC
- USB Downloader for AVR microcontroler
- USING RS485 serial communication
- Using the I2C protocol
- Using the SPI protocol
- Using the UART
- Varicap or varactor diodes
- Voltage multipliers (5)
- XRAM microcontroler AVR
- Zener diodes
- Category: solid state teory
- Category: Stuff
- All About ATMega8535
- Analog to Digital Converter : ADC MAX 154/158
- DS 1821 Programmable Digital Termostat
- DS 1904 RTC iButton
- DS1626/1726 3-Wire Digital Thermometer (1)
- electrical article : RADIANT FLOOR HEAT CONCEPTS AND DETAILS (1)
- Electrical Pressure Sensors
- FIGARO TGS 2201 Gas Sensors (1)
- fingerprint : MS8800 S-Bio
- GP2D12 Interface (Infrared Range Finder)
- JTAG Emulator for ARM
- maxim serial integreted circuit : max232
- Passive Infrared sensor (PIR) motion detector (8)
- PING)))™ Ultrasonic Distance Sensor (1)
- Sound sensor
- SRF04 Ultrasonic sensor
- TCS230 colors sensors (1)
- Temperature and Humidity Sensor
- temperature sensor
- TGS2610-D00 gas sensors
- Wiznet : Wiz110SR serial to ethernet converter (2)
- Category: thyristors
- DC MOTOR DRIVES : Pulse Width Modulation (1)
- Field-effect-controlled thyristors (1)
- The Shockley Diode (3)
- The Silicon-Controlled Rectifier (SCR)
- The Unijunction Transistor (UJT)
- THYRISTORS : The DIAC
- THYRISTORS : The Silicon-Controlled Switch (SCS)
- THYRISTORS part 2 : Gas discharge tubes
- THYRISTORS part 6 : The TRIAC
- THYRISTORS part 7 : Optothyristors
- Category: transistors
- Amplifier impedances
- BIPOLAR JUNCTION TRANSISTORS
- Current mirrors Transistors
- Electric Control Using a Triac
- ELECTRONIC THERMOSTAT SOLUTION CIRCUIT
- Meter check of a transistor
- The cascode amplifier
- The common-base amplifier (1)
- The common-collector amplifier
- Transistor : Biasing techniques
- Transistor Active mode operation
- Transistor as a switch
- Transistor ratings and packages
- Transistor:Input and output coupling
- transistors : Biasing calculations
- Transistors : Feedback
- Transistors : The common-emitter amplifier
- Category: Tutorial
- Ultrasonic Sensor working principle (1)
- Absolute dB scales
- ADC 0808 (2)
- Amplifier gain
- Amplifier impedances
- Amplifiers ( controlling signal )
- AMPLIFIERS AND ACTIVE DEVICES
- AMPLIFIERS AND ACTIVE DEVICES : From electric to electronic
- analog to digital ADC 0804
- Analog to Digital Converter (ADC) on ATMega8535 (1)
- Analog to Digital Converter : ADC MAX 154/158
- Arduino Microcontroller System
- atmega development board with rs232
- ATmega PCB Design with RS232 (1)
- Attaching an LCD Display
- Attenuators (passive devices)
- AVR Internal Hardware
- AVR Internal Hardware Port B
- AVR Internal Hardware Port D
- AVR Internal Hardware TIMER0
- AVR Internal Hardware TIMER1
- AVR Internal Registers
- Band theory of solids
- BIPOLAR JUNCTION TRANSISTORS
- Clamper circuits
- Clipper circuits
- connecting microcontroler and computer with usb comunication (2)
- Create a realtime timer on ATMega8535 (1)
- Current mirrors Transistors
- Data converters (ADC / DAC) : PCF8591
- DC MOTOR DRIVES : Pulse Width Modulation (1)
- Decibels (amplifier's gain)
- Description and Schematic of Optocoupler
- Diode switching circuits
- DIODES AND RECTIFIERS part 1 Definition and introduction
- DIODES AND RECTIFIERS part 3 (Diode ratings)
- DIODES AND RECTIFIERS Solar cells
- DS 1821 Programmable Digital Termostat
- DS 1904 RTC iButton
- DS1626/1726 3-Wire Digital Thermometer (1)
- ELECTRICAL UNITS
- Electronics cable programmer
- Electrons and “holes”
- EM4095 RFID Reader (2)
- Field-effect-controlled thyristors (1)
- FIGARO TGS 2201 Gas Sensors (1)
- GP2D12 Interface (Infrared Range Finder)
- Gunn diode, Shockley diode and Constant-current diodes (2)
- How Linear Power Supply Work - Rectifier
- How Linear Power Supply Work - Regulator (2)
- How to Make PIC Programmer (TUTORIAL)
- Humidity Sensor : HS 12P/15P
- Inductor commutating circuits
- ISP programmer ( parallel Downloader )
- keypad on AVR microcontroler
- Laser diodes (4)
- linux microcontroller programming
- Making Scrolling Text On Dot Matrix
- maxim serial integreted circuit : max232
- Memory usage in avr microcontroler
- Meter check of a diode
- Meter check of a transistor
- Minimum System for ATMega
- motor driver program in the AVR microcontrollers using BASCOM
- OPERATIONAL AMPLIFIERS : part 10 (Differentiator and integrator circuits) (1)
- OPERATIONAL AMPLIFIERS : part 11 (Positive feedback)
- OPERATIONAL AMPLIFIERS : part 12 (Practical considerations)
- OPERATIONAL AMPLIFIERS : part 13 (Offset voltage)
- OPERATIONAL AMPLIFIERS : part 14 (Bias current)
- OPERATIONAL AMPLIFIERS : part 15 (Drift and Frequency response)
- OPERATIONAL AMPLIFIERS : part 16 (Input to output phase shift)
- OPERATIONAL AMPLIFIERS : part 17 (Operational amplifier models)
- OPERATIONAL AMPLIFIERS : part 2 (The "operational" amplifier) (2)
- OPERATIONAL AMPLIFIERS : part 3 (Negative feedback)
- OPERATIONAL AMPLIFIERS : part 4 (Divided feedback)
- OPERATIONAL AMPLIFIERS : part 5 (An analogy for divided feedback)
- OPERATIONAL AMPLIFIERS : part 6 (Voltage-to-current signal conversion)
- OPERATIONAL AMPLIFIERS : part 7 (Averager and summer circuits)
- OPERATIONAL AMPLIFIERS : part 8 (Building a differential amplifier)
- OPERATIONAL AMPLIFIERS : part 9 (The instrumentation amplifier)
- Other diode technologies
- Peak detector
- Personal Computers Based vs PIC micro MCU Based Program Development
- Photodiodes
- PIC Programming Tutorial With PICALL Software
- Potentiometer (4)
- PPI 8255 for DAC
- Rectifier circuits
- Resistor ( how to read the resistor's band )
- Sensors and Transducers
- SENSORS FOR DEAD RECKONING
- serial communication microcontroller and mobile phones (4)
- Shift Register
- Single-ended and differential amplifiers
- solve data communications problem
- Special-purpose diodes
- stepper motor : definition and diagram (2)
- Temperature and Humidity Sensor
- temperature sensor
- TGS2610-D00 gas sensors
- The cascode amplifier
- The common-base amplifier (1)
- The common-collector amplifier
- The Quantum physics (1)
- THE SAFE USE OF ELECTRICITY IN THE HOME
- The Shockley Diode (3)
- The Silicon-Controlled Rectifier (SCR)
- The Unijunction Transistor (UJT)
- THYRISTORS : The DIAC
- THYRISTORS : The Silicon-Controlled Switch (SCS)
- THYRISTORS part 1 : Hysteresis (1)
- THYRISTORS part 2 : Gas discharge tubes
- THYRISTORS part 6 : The TRIAC
- THYRISTORS part 7 : Optothyristors
- Transistor : Biasing techniques
- Transistor Active mode operation
- Transistor as a switch
- Transistor ratings and packages
- Transistor:Input and output coupling
- transistors : Biasing calculations
- Transistors : Feedback
- Transistors : The common-emitter amplifier
- USB Downloader for AVR microcontroler
- USB Microcontroller Programmer
- USING RS485 serial communication
- Using the I2C protocol
- Using the SPI protocol
- Using the UART
- Valence and Crystal structure
- Varicap or varactor diodes
- Various Kinds of Sensors
- Voltage multipliers (5)
- XRAM microcontroler AVR
- Zener diodes
- Category: Uncategorized
- Category: What's new
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- sitemap June 12th, 2010
