Wednesday, April 28, 2010

ASKA LA-9520 AMPLIFIER

REPLACEMENT LINE AMPLIFIER FOR DX ELA-20 L-BAND 20dB GAIN.

Replacement for dis-continued DX LINE LNB AMPLIFIER 950 ~ 24000 MHz 20db GAIN 12-24VDC ASKA LA-9520 AMPLIFIER, fully Compatible


information about DX Line Amplifier

Saturday, April 24, 2010

Robotics with the Boe-Bot Parts Kit

Robotics! Mount the Board of Education® programming board on a robot chassis to learn mechanical control, infrared object detection, light following and avoidance. The Robotics Parts Kit includes "everything below the Board of Education carrier board and BS2-IC". This includes the Boe-Bot chassis, Whisker Kit, drivetrain hardware, wheels, battery pack, standoffs, screws, etc. The Boe-Bot chassis has mounting slots and screw holes that may be used for customizing your robot with whiskers, additional prototype space, sonar applications, or even a robotic arm. The electronic components required for the Robotics experiments are also included in the Robotics Parts Kit. Medium to high challenge and very fun!

The Board of Education Full Kit is required to use this product or purchase the complete Boe-Bot robot. With the whiskers, you can make your Boe-Bot robot detect and avoid obstacles. The Whiskers are included in the Robotics parts kit and the Boe-Bot Full Kit.

Kit Contents:
pc(s) description/component
2 1 kΩ Resistor, 1/4 watt
4 10 kΩ Resistor 1/4 watt
2 2 kΩ Resistor, 1/4 watt
8 220 Ω Resistor 1/4 watt
4 470 Ω Resistor 1/4 watt
2 4.7k Ω Resistor 1/4 watt
2 0.0 1µF 50v Poly Capacitor
2 0.1 µF Mono Radial Capacitor
2 Infrared LED
2 Red LED
2 Photo Resistor
2 Infrared Receiver
2 LED Standoff for Infrared LED
2 LED Light Shield for Infrared LED
2 Tact Switch
2 3-pin Male/Male Header
8 Panhead screw, 4/40, 3/8
10 4/40 x 3/8" Nut
1 Tail Wheel Ball
2 #4 Nylon Washer
2 Flat Head screw, 4-40,3/8"
1 Boe-Bot Aluminum Chassis
1 Cotter Pin-1/16" Diameter
1 Rubber Grommet-13/32" Hole Diameter
8 Panhead screw, 4/40, 1/4
1 Battery holder, 4-cell AA with cable and barrel jack
2 Whisker wires
74 Standoff, threaded aluminum, round 4-40
2 Pan-head screw, 7/8" 4-40
2 Spacer, 1/2" round #4
2 Wheel, Plastic, 2.58 Dia, .3 W
2 Rubber Band Tire for 721-00001
2 3" Jumper Wires (1 Bag of 10)
1 Piezospeaker
2 Parallax Continuous Rotation Servo

SX Blitz module

The SX-Blitz is a low-cost alternative to the SX-Key development tool. The SX-Blitz provides programming capabilities for the SX line of microcontrollers, supporting every chip that is commercially available. Unlike the SX-Key however, it does not provide in-circuit source-level debugging capabilities. The SX-Blitz is fully compatible with the SX-Key IDE software used for programming the SX microcontrollers. The software operates on a Windows platform and is compatible with Win98/NT/2K/XP platforms.

Key Specifications:

  • Power: 5 VDC supplied via the USB connection
  • Communications: USB (v 1.1 and 2.0 supported)
  • Dimensions: 2.5 x 0.63 x 0.25 in (63.5 x 16 x 6.5 mm)
  • Operating temp range: +32° to +158° F (0° to +70° C)

SX-Key (USB) programmer

The SX-Key USB is Parallax's primary development tool for the SX line of microcontrollers, supporting every chip that is commercially available. Supported by the SX-Key Editor software, the SX-Key programming tool can program SX chips in-system and perform in-circuit source-level debugging. Also at the user's fingertips is an on-board programmable clock. The frequency output of this clock is adjusted from the software with a slider bar between 2.75 MHz and 100 MHz. The software operates on a Windows platform and is compatible with Win98/NT/2K/XP/Vista platforms.

Features:

* Create PLL frequencies from 2.75 MHz to 100 MHz
* Run from USB power independent of the target system’s operating voltage
* Connect to the computer through a full speed USB port
* Connect to a Parallax SX Tech Board, Parallax Professional Development board, or any other board with a 4-pin male SX-Key header
* Perform in-system programming and debugging

Key Specifications:

* Power supply: +5 VDC supplied via the USB connection
* Communication: USB (v 1.1 and 2.0 supported)
* Dimensions: 2.5 x 0.63 x 0.25 in (63.5 x 16 x 6.5 mm)
* Operating Temperature: +32 to +158 °F (0 to +70 °C)

433 MHz RF Transceiver

Easy to use and low cost module is capable of sending and receiving serial data wirelessly between microcontrollers or to a PC. The low power consumption makes this module ideal for use in battery powered applications. This module sends and receives data by AM or CPCA modulation, thus offering a higher average output power which extends its range. This module is equipped with an RSSI feature that can be utilized to improve power efficiency by waking up circuitry only when an external signal is detected. 3.3 to 5.0VDC; Transmit: 12mA, Receive: 6.1 mA, Power Down:11.5 uA

Features:

* High speed data transfer rates: 1200-9600 bps
* Asynchronous serial data (TTL/CMOS compatible)
* SIP header allows for ease of use with breadboards
* Compatible with most microcontrollers including the Propeller chip and all BASIC Stamp models
* Power-down mode for conservative energy usage (longer battery life)
* Line of sight range up to 250 feet (depending on operating conditions)

Application Ideas:

* Remote controlled Boe-Bot robot
* Wireless data acquisition
* Remote signal beacon for adventure seekers
* Remote industrial monitoring
* Lighting control
* Keyless entry

Key Specifications:

* Power requirements: 3.3 VDC to 5.0 VDC
* Communication: Asynchronous Serial @ 1200-9600 baud
* Dimensions (With Antenna): 3.82 x 0.94 x 0.41 in (97 x 24 x 10.5 mm)
* Operating temp range: +32°F to +158°F (0°C to +70°C)

Parallax 433 MHz RF Receiver

The Parallax RF modules provide a very easy and low-cost method of sending data between microcontrollers or to a PC from 500 ft+ line-of-sight (depending on conditions). This device can be connected to a PC serial port using a MAX232 line driver. The circuit isn't supported by Parallax, but it's possible to make this connection with a few dollars of parts.

Features:

* High-speed data transfer rates (1200 ~ 19.2k Baud depending on controller used)
* SIP header allows for ease of use with breadboards
* Compatible with all BASIC Stamp® modules (including BS1 and Javelin Stamp) and SX chips
* As easy to use as simple SEROUT/SERIN PBASIC instructions
* Power-down mode for conservative enter usage (longer battery life)
* Line-of-sight range of 500 feet (or greater depending on conditions)

Application Ideas:

* Remote Controlled Boe-Bot® robot
* Wireless data acquisition
* Remote sensors and triggers

Key Specifications:

* Power requirements: 5V +/-10%
* Current: ~10 mA normal operation & ~3mA during power down
* Date Rate: 12,000 - 19.2 K baud (controller dependent)
* Transmission: 500 ft+, based on environment conditions
* Dimensions (with antenna): 0.9 x 3.6 in (22.9 x 91.4 mm)
* Operating Temperature: -40 to +158 °F (-40 to +70 °C)

BrainStem GP 2.0, general purpose controller module

The BrainStem GP 2.0 is a general purpose controller that can run code stand-alone, link to a host computer, and enable reflexive actions, all simultaneously. This module supports 5 10-bit A/D inputs, 5 digital I/O pins, infrared transmit /receive, 1 Mbps I2C bus, serial interface, and 4 high-resolution PWM servo outputs.
The module also features voltage regulation and low-voltage protectionand an on-board prototyping area.
The BrainStem GP 2.0 is supported on Windows, MacOS X, and Linux. With convenient power and ground connections for each I/O pin, five analog and five digital I/O lines, infrared I/O, high resolution servo outputs, and a 1 Mbps IIC bus, the module offers "plug and play" ease for connecting many accessories, with a set of new features:

• Infrared I/O in a variety of protocols.
• 11 1k TEA program slots
• One additional 16k TEA program slot
• A prototyping area with 2 analog, 3 digital, I2C, Vcc, and Vsrc through holes.
• Module powers down when input voltage of less than 3.2V is detected.
• 5V Vcc ouput provided irregardless of source voltage; 3.2V to 28V source voltage accepted
• Onboard power switch and low battery indicator

Tuesday, April 20, 2010

Chameleon AVR 8-Bit System


The Chameleon design is based on the concept of using the AVR 328P as the MASTER (client) and the Propeller Multicore Processor as the media SLAVE (server). This is accomplished thru a SPI interface from the AVR to the Propeller (see images to right). The AVR sends "commands" to the Propeller chip via the SPI interface and a set of drivers on the Propeller (see images to right) parse, execute, and dispatch the messages to the various media objects running on the Propeller's multiple cores. Thus, printing characters on the NTSC screen from the AVR's point of view is as simple as sending 3 bytes thru the hardware SPI interface, the Propeller does all the rest with the supplied drivers.

If you're a AVR enthusiast, Arduino programmer, Propeller programmer, or just someone that needs a very capable application board to solve problems and solve them fast, the Chameleon is the perfect tool. You can use as little or as much of the system as you wish due to the design of the sub-systems. You can use it as an AVR system, Propeller multicore system, or tie the processors together, its up to you.

Included with the package is the Chameleon itself as well as a 150+ page electronic manual on DVD that outlines how the Chameleon works with examples of using the media processing abilities. Also, the manual illustrates the hardware design, using AVRStudio, the Arduino IDE, Propeller IDE, software installation, the API, and how to write your own drivers if you wish. But, best of all, you can get started immediately with the
Chameleon and use the included API and program the AVR directly with AVRStudio or the Arduino IDE.

The Chameleon also comes pre-loaded with the Arduino bootloader, thus you can use the Arduino tool to program the Chameleon over the USB port without an AVR compatible ISP (in system programmer). However, we recommend that you purchase a AVR ISP MKII programmer (or similar), so you can use AVRStudio as well as re-burn the FLASH bootloader if you wish to do so (or if its damaged accidentally).

The Propeller is programmed with a simple serial protocol right over the USB serial port, so no additional hardware is required.

The Chameleon AVR 8-Bit has a full arsenal of I/O devices and features including:
• Runs Atmel AVR 328P applications, Arduino applications as well as Parallax Propeller applications.
• Atmel MEGA AVR 328P 8-bit processor with 32K FLASH / 2K SRAM running at 16 MIPS (pre-loaded
with Arduino bootloader).
• Parallax Propeller Multicore 32-bit processor with 8 cores running at 20 MIPS per core for 160 MIPS
of processing power!
• 1 MByte SPI FLASH memory.
• 64 Kbyte EEPROM (for Propeller processor boot program storage).
• 500mA max power 3.3/5V dual supplies (power by USB or external 9V DC supply with hot swapping).
• Mini USB port with USB to serial UART (FTDI chip), used for programming the Propeller, AVR in
Arduino mode as well as serial comms.
• VGA output with 2x2x2 RGB.
• Composite video output for NTSC/PAL video.
• Atmel 6-pin ISP programming port for direct access to AVR (programmer not included).
• PS/2 keyboard/mouse port.
• I/O headers exporting digital, analog input inputs and power (rough compatibility with Arduino I/O
headers).
• Exported SPI, Serial and I2C buses.
• Removable XTALs for overclocking.

Chameleon PIC 16-Bit System

The Chameleon design is based on the concept of using the PIC24 as the MASTER (client) and the Propeller Multicore Processor as the media SLAVE (server). This is accomplished thru a SPI interface from the PIC to the Propeller (see images to right). The PIC sends "commands" to the Propeller chip via the SPI interface and a set of drivers on the Propeller (see images to right) parse, execute, and dispatch the messages to the various media objects running on the Propeller's multiple cores. Thus, printing characters on the NTSC screen from the PIC's point of view is as simple as sending 3 bytes thru the hardware SPI interface, the Propeller does all the rest with the supplied drivers.

If you're a PIC enthusiast, Propeller programmer, Arduino fan, or just someone that needs a very capable application board to solve problems and solve them fast, the Chameleon is the perfect tool. You can use as little or as much of the system as you wish due to the design of the sub-systems. You can use it as a PIC 16-bit system, Propeller multicore system, or tie the processors together, its up to you. Included with the package is the Chameleon itself as well as a 150+ page electronic manual on DVD that outlines how the Chameleon works with examples of using the media processing abilities. Also, the manual illustrates the hardware design, using MPLab, the Our Custom Text Editor Based Environment IDE, Propeller IDE, software installation, the API, and how to write your own drivers if you wish. But, best of all, you can get started immediately with the Chameleon and use the included API and program the PIC directly with MPLab or our Custom Text Editor based IDE.

The Chameleon also comes pre-loaded with the Microchip bootloader, thus you can use the protocol compatible tools to program the Chameleon over the USB port without a Pickit2 compatible ISP (in system prgrammer). However, we recommend that you purchase a Pickit2 ISP programmer (or similar), so you can use MPLab to its fullest potential, debug, as well as re-burn the FLASH bootloader if you wish to do so (or if its damaged accidentally).

The Propeller is programmed with a simple serial protocol right over the USB serial port, so no
additional hardware is required.

The Chameleon PIC 16-Bit was designed to be Arduino I/O compatible as much as possible, so programs written for the Arduino (or Chameleon AVR) in C/C++ could be easily ported to the Chameleon PIC as supported by the I/O headers. However, the Chameleon PIC 16-bit is over 200% faster than the Arduino and double the bandwidth since its a 16-bit processor. Additionally, the Chameleon PIC comes pre-programmed with a custom Microchip bootloader, so you can develop directly with a very simple text editor and set of batch files we have created that give the Chameleon PIC an "Arduino-like" development experience if you don't want to use the more complex MPLab. So right out of the box, all you need to program the Chameleon PIC is a USB cable and a PC.

The Chameleon PIC 16-Bit has a full arsenal of I/O devices and features including:
  • Runs Microchip PIC24 16-bit applications, as well as Parallax Propeller applications.
  • Microchip PIC24HJ128GP502 16-bit processor with 128K FLASH / 8K SRAM running at 40 MIPS (pre-
  • loaded with Microchip bootloader).
  • Parallax Propeller Multicore 32-bit processor with 8 cores running at 20 MIPS per core for 160 MIPS
  • of processing power!
  • 1 MByte SPI FLASH memory.
  • 64 Kbyte EEPROM (for Propeller processor boot program storage).
  • 500mA max power 3.3/5V dual supplies (power by USB or external 9V DC supply with hot swapping).
  • Mini USB port with USB to serial UART (FTDI chip), used for programming the Propeller, PIC in
  • bootloader mode as well as serial comms.
  • VGA output with 2x2x2 RGB.
  • Composite video output for NTSC/PAL video.
  • Microchip 6-pin ISP programming port for direct access to PIC (programmer not included).
  • PS/2 keyboard/mouse port.
  • I/O headers exporting digital, analog input inputs and power (95% compatibility with Arduino I/O
  • headers).
  • Exported SPI, Serial and I2C buses.
  • Removable XTALs for overclocking.

MD22 - Dual 24Volt 5Amp H Bridge Motor Drive

MD22 - Dual 24Volt 5Amp H Bridge Motor Drive

Overview
The MD22 is a robust low/medium power motor driver, designed to supply power for two motors. Main features are:

1.    Drives two motors with independent control.
2.    Ease of use and flexibility.
3.    The 15v MOSFET drive voltage is generated onboard with a charge pump, so the module requires only two supply voltages;
       a)   A standard 5V supply for the control logic, only 50mA maximum is required.
       b)   The H-Bridge has a rating of 60v allowing Motor voltages up to 24vdc.
4.    Steering feature, motors can be commanded to turn by I2C register or input (Analogue + Servo).
5.    Control of the module can be any of;
       a)    I2C bus, up to 8 MD22 modules, switch selectable addresses and 4 modes of operation including steering..
       b)    2 independent 0v-2.5v-5v analog inputs. 0v full reverse, 2.5v center stop, 5v full forward.
       c)    0v-2.5v-5v analog input for speed ,with the other channel for steering.
       d)    independent channel RC mode. Motors are individually Controlled directly from the RC receiver output.
       e)    RC mode with steering, allows speed control with one stick of radio control, and steering with the other.
6.    Uses high current MOSFETs, making a very robust module.

MD03 - 24Volt 20Amp H Bridge Motor Drive

MD03 - 24Volt 20Amp H Bridge Motor Drive 
Overview
The MD03 is a medium power motor driver, designed to supply power beyond that of any of the low power single chip H-Bridges that exist. Main features are ease of use and flexibility. The motor's power is controlled by Pulse Width Modulation (PWM) of the H-Bridge at a frequency of 15khz ( 7.5khz before version 12).
The 15v MOSFET drive voltage is generated onboard with a charge pump, so the module requires only two supply voltages;
1.    A standard 5V supply for the control logic, only 50mA maximum is required.
2.    The H-Bridge has a rating of 60v allowing Motor voltages up to 24vdc.
Control of the module can be any of;
    a.    I2C bus, up to 8 MD03 modules, switch selectable addresses.
    b.    0v-2.5-5v analog input. 0v full reverse, 2.5v center stop, 5v full forward.
    c.    0v-5v analog input with separate direction control
    d.    RC mode. Controlled directly from the RC receiver output.
    e.    PWM. A simple onboard filter means you can use a 0%-100% 20khz or greater instead of analog.

USB to I2C Communications Module


The USB-I2C module provides a complete interface between your PC and the I2C bus. The module is self powered from the USB cable and can supply up to 70mA at 5v for external circuitry from a standard 100mA USB port. The module is an I2C master only, not a slave.

The USB-I2C module uses the FTDI FT232R USB chip to handle all the USB protocols. The documentation provided by FTDI is very complete, and is not duplicated here. Before using the USB-I2C, you will need to install FTDI's Virtual COM Port ( VCP ) Drivers. These drivers appear to the system as an extra Com Port ( in addition to any existing hardware Com Ports ). Application software accesses the USB device in the same way as it would access a standard Windows Com Port using the Windows VCOMM API calls or by using a Com Port  Library. Drivers are available for Windows, Apple, Linux and Open BSD systems directly from the FTDI website. You should get and install the drivers now, before you connect the USB-I2C to your computer. The Drivers page is here. More technical review here.

ATAVRISP2 AVRISP mkII In-System Programmer

ATAVRISP2 AVRISP mkII In-System Programmer
Description: AVR In-System Programmer mkII is used for field upgrades of AVR Flash microcontrollers. The AVRISP mkII combined with AVR Studio can program new AVR 8-bit RISC microcontrollers with ISP Interface.

The AVR Studio online-help contains the most current information and a complete list of supported devices.

AVR ISP mkII fix:
AVRISP mkII programmers manufactured from 20071012 to 20080130 has a missing parameter in the firmware. This causes the AVRISP mkII to not be able to communicate with the target AVR. The AVRISP mkII can be fixed by upgrading the firmware.
For procedure details see AVRISP mkII fix note.

Universal 100 Watt switching Adapter

Universal 100 Watt Switching adapter , with USB port charger.
technical specs:
  • input 110-240VAC (50/60Hz)
  • output DC 12/16/18/19/20VDC 6A; 22/24VDC 5A
  • 1 port USB charger
  • built in any size jack DC
  • 1 AC power cord
  • suitable for notebook/laptop/netbook/printer/ universal supply
  • black pvc enclosure

CAB-OCTAL-MODEM


Cisco Systems 8 Lead Octal Cable and 8 Male DB-25 Modem Connectors.

DB 25 STRAIGHT 1.5M Cable

6ft DB25 M/F Straight Thru Extension Cable : DB25 Male to Female cables from 2R are designed for RS-232 serial or parallel extension applications. Extend your existing cables easily and at a lower cost than buying a new cable. All 25 lines are wired straight through pin-to-pin for ease of compatibility. Each cable is constructed with molded connectors and foil shielding for EMI/RFI protection

CAB-X21MT- Cisco Cable HD60 Male / DB15 Male,

CAB-X21MT- Cisco Cable HD60 Male / DB15 Male, This is a high quality  Male to Male router cable for Cisco systems. Cisco part #CAB-X21MT

CAB-SS-X21MT Cisco Smart Serial Cable 26 Pin Male / DB15 Male


CAB-SS-X21MT Cisco Smart Serial Cable 26 Pin Male / DB15 Male, This is a high quality  Male to Male serial router cable for Cisco systems. Cisco part #CAB-SS-X21MT

Monday, April 19, 2010

FT232BL USB UART ( USB to Serial on single chip) I.C.

The FT232BL is the lead free version of the 2nd generation of FTDI’s popular USB UART I.C. This device not only adds extra functionality to its FT8U232AM predecessor and reduces external component count, but also maintains a high degree of pin compatibility with the original, making it easy to upgrade or cost reduce existing designs as well as increasing the potential for using the device in new application areas.

HARDWARE FEATURES:
Single Chip USB to Asynchronous Serial Data Transfer
• Full Handshaking & Modem Interface Signals
• UART I/F Supports 7 / 8 Bit Data, 1 / 2 Stop Bits and Odd/Even/Mark/Space/No Parity
• Data rate 300 => 3M Baud (TTL)
• Data rate 300 => 1M Baud (RS232)
• Data rate 300 => 3M Baud (RS422/RS485)
• 384 Byte Receive Buffer / 128 Byte Transmit Buffer for high data throughput
• Adjustable RX buffer timeout
• Fully Assisted Hardware or X-On / X-Off Handshaking
• In-built support for event characters and line break condition
• Auto Transmit Buffer control for RS485
• Support for USB Suspend / Resume through SLEEP# and RI# pins
• Support for high power USB Bus powered devices through PWREN# pin
• Integrated level converter on UART and control signals for interfacing to 5V and 3.3V logic
• Integrated 3.3V regulator for USB IO
• Integrated Power-On-Reset circuit
• Integrated 6MHz – 48Mhz clock multiplier PLL
• USB Bulk or Isochronous data transfer modes
• 4.35V to 5.25V single supply operation
• UHCI / OHCI / EHCI host controller compatible
• USB 1.1 and USB 2.0 compatible
• USB VID, PID, Serial Number and Product Description strings in external EEPROM
• EEPROM programmable on-board via USB
• Compact Lead free RoHS compliant 32-LD LQFP package.

APPLICATION AREAS
- USB to RS232 Converters
- USB to RS422 / RS485 Converters
- Upgrading RS232 Legacy Peripherals to USB
- Cellular and Cordless Phone USB data transfer cables and interfaces
- Interfacing MCU based designs to USB
- USB Audio and Low Bandwidth Video data transfer
- PDA to USB data transfer
- USB Smart Card Readers
- Set Top Box (S.T.B.) PC - USB interface
- USB Hardware Modems
- USB Wireless Modems
- USB Instrumentation
- USB Bar Code Readers

Polstar PMB-648 GPS module

Polstar PMB-648 GPS module
PMB-648 FEATURES
  • Built-in SiRFstarIII chipsets receivers give unparalleled GPS performance and precision. 20 parallel satellite-tracking channels for fast acquisition and reacquisition.
  • Built-in WAAS /EGNOS Demodulator.
  • Low power consumption and ultra mini size only 32x32mm.
  • Built-in rechargeable battery for backup memory and RTC backup.
  • Support NMEA0183 v2.2 data protocol.
  • Enhanced algorithms providing superior navigation performance in urban, canyon and foliage environments.
  • For Car Navigation, Marine Navigation, Fleet Management, AVL and Location-Based Services, Auto Pilot, Personal Navigation or touring devices, Tracking devices/systems and Mapping devices application.

C3188A 1/3" Color Camera Module with Digital Output


The C3188A is a 1/3" color camera module with digital output. It uses OmniVision's CMOS image sensor OV7620. Combining CMOS Technology together with an easy to use digital interfaces makes C3188A a low cost solution for higher quality video image application.
The digital video port supplies a continuous 8/16 bit-wide image data stream. All camera function, such as exposure, gamma , gain, white balance, color matrix, windowing, are programmable trough I2C Interface.

Features:
  • 326,688 pixel, vga/cif format
  • small size 40x28mm
  • lens:f=6mm
  • 8/16 bit video data :CCIR601, CCIR656, ZV port
  • read out-progresive / interlace
  • Data format- YCrCb 4:2:2, GRB 4:2:2, RGB
  • I2C Interface
  • Built in 10 bit 2 ch A/D Converter
  • Electronic exposure / Gain/ white balance control
  • Image Enhancement - brightness, contrast, gamma
  • saturation, sharpness, window, etc.
  • Internal/ external synchronization scheme
  • Frame exposure/ line exposure option
  • Wide dynamic range, anti blooming, zero smearing
  • Single + 5V operating supply with low power consumption (< 120mW)
  • Monochrome composite signal video output (60Hz)

Saturday, April 17, 2010

8.5GHz Radar Light Switch


8.5GHz Radar Light Switch,based on Doppler Effect.Taking latest advanced planar antenna to effectively inhibited high-order harmonic signals. When people stay at sensor range, Radar Detector will automatically connect to the load. People stay at sensor range, Radar Detector will continue to connect the load. Automatically turns off the load after people leave.It will light up when people are here; it will light out when people away to achieve energy-saving minus carbon purpose.

* Feature Exclusive Patent.
* Special design, can instead of traditional Switch.
* Don´t worry wrong line connected caused short-circuited. Just connect original power line, don´t need to connect with fire wire.
* With night-light instruction, hand-operated or auto-operate for your best choice.
* Auto-start sensing light function at night.
* Can be as ON/OFF, it will keep open after you press ON/OFF key, easy for office using.
* Wireless UHF microwave detecting to avoid the PIR causing working error, no-operating, short distance , etc. which are causing by weather, temperature changing.
* Reduce PIR failure rate.
* Detect distance over 15M.
* Strong penetration, can penetrate wall, glasses and so on.
* Well responsive, almost no dead angel.

* Application Auto-sensing light
* Staircase walkway light
* Outdoor turf sensor light
* Parking light control light
* Traffic light signal control light
* Office power management
* Monitor anti-theft auto lighting

Friday, April 16, 2010

Bioloid- Do it Yourself Educational Robot Kit



Not an average robot kit, the Bioloid Comprehensive Kit from Robotis allows you to build and configure over 26 robots! The Bioloid Robot Kits from Robotis are the first educational robot kit based around "smart serially controlled servos" which are not only capable of switching between positioning and full continuous rotation, but also provides you with access to sensory feedback such as position, speed, temperature, current draw and voltage of each servo. Bioloid kits are designed in a way that allow the user to construct multiple types of robots. In addition to the great hardware, the Bioloid Kit comes with some powerful GUI-based software. The software is freeware, so whether you're using this kit for education, research, or personal recreation, you can download and install it on as many computers as you need. Bioloid Robot Kits are perfect for Education, Hobbies, Research and Competition.