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Sleek styling designed for SUV / CUV vehicles 5" Low profile SuperGrippy™, non-slip UV step pads Polished stainless steel Bar lengths for popular CUVs with brackets sold separately Limited Lifetime Warranty 08-13 08-13 08-13 08-13 2013 12-13 12-13 10-13 2013 05-12 Buick Enclave Chevrolet Traverse GMC Acadia Dodge Journey Ford Escape Ford Explorer Honda CR-V Jeep Grand Cherokee Toyota RAV4 Toyota RAV4 Brackets 391715 391715 391715 390215 392675 392705 393945 392445 392865 391865 Bars 395756 395756 395716 395756 395676 395756 395676 395716 395676 395676 RUNNING BOARDS FOR SUV/CUVs 5" WIDESIDER PLATINUM LOW PROFILE BARS for SUV and CUV Applications RUNNING BOARDS FOR CROSSOVERS Black/Black ▪▪ ▪▪ ▪▪ ▪▪ ▪▪ ▪▪ Lightweight aluminum powder coated frame Full-length protective accent trim Slip resistant raised rubber grommets on the step area No-drill installation NRT™ powder coated Mounting Brackets (Sold Separately) Limited Lifetime Warranty
Crossroads Ford - Prince George 4500 Whitehill Blvd Prince George, VA 23875 Contact: Ask For Internet Sales Department Toll-Free: 877-331-9405 Phone: 877-331-9405 2012 GMC Acadia FWD 4dr Denali SUV Retail Price $41,200 Sale Price $39,975 My Savings $1,225 “It is the customer's sole responsibility to verify the existence and condition of any equipment listed. Neither the dealership nor eBizAutos is responsible for misprints on prices or equipment. It is the customer's sole responsibility to verify the accuracy of the prices with the dealer.” VIN: 1GKKRTED2CJ257160 Stock No: S1081 Mileage: 37,023 Exterior Color: Carbon Black Metallic Engine: Engine, 3.6L SIDI V6 (288 hp [214.7 kW] @ 6300 rpm Gasoline Interior Color: Cashmere Transmission: 6 Spd Automatic Drivetrain: Front Wheel Drive Warranty: Warranty Available Condition: Used Clear Title Installed Options: Ext / Int Color Carbon Black Metallic with Cashmere Leather Interior Luxury Features: • Air Conditioning • Cruise Control • Climate Control System • Moonroof • Rear A/C • Tinted Windows • Power Windows • Power Locks • Passenger Air Bag • Side Air Bags Power Equipment • Power Steering • Power Passenger Seat Safety Features • Traction Control System • Audio / Video • Factory System Additional Features • Heated Mirrors “It is the customer's sole responsibility to verify the existence and condition of any equipment listed. Neither the dealership nor eBizAutos is responsible for misprints on prices or equipment. It is the customer's sole responsibility to verify the accuracy of the prices with the dealer.” Powered by eBizAutos | Copyright 2001 - 2014 |
Document Number: MMA7660FC Rev 8, 03/2012 Freescale Semiconductor Data Sheet: Technical Data An Energy Efficient Solution by Freescale 3-Axis Orientation/Motion Detection Sensor MMA7660FC The MMA7660FC is a ±1.5 g 3-Axis Accelerometer with Digital Output (I2C). It is a very low power, low profile capacitive MEMS sensor featuring a low pass filter, compensation for 0g offset and gain errors, and conversion to 6-bit digital values at a user configurable samples per second. The device can be used for sensor data changes, product orientation, and gesture detection through an interrupt pin (INT). The device is housed in a small 3mm x 3mm x 0.9mm DFN package. MMA7660FC: XYZ-AXIS ACCELEROMETER ±1.5 g Features Digital Output (I2C) 3mm x 3mm x 0.9mm DFN Package Low Power Current Consumption: Off Mode: 0.4 µA, Standby Mode: 2 µA, Active Mode: 47 µA at 1 ODR Configurable Samples per Second from 1 to 120 samples a second. Low Voltage Operation: – Analog Voltage: 2.4 V - 3.6 V – Digital Voltage: 1.71 V - 3.6 V Auto-Wake/Sleep Feature for Low Power Consumption Tilt Orientation Detection for Portrait/Landscape Capability Gesture Detection Including Shake Detection and Tap Detection Robust Design, High Shocks Survivability (10,000 g) RoHS Compliant Halogen Free Environmentally Preferred Product Low Cost 10 LEAD DFN CASE 2002-03
GP2D120 Optoelectronic Device FEATURES • Analog output • Effective range: 4 to 30 cm • Typical response time: 39 ms 1 2 3 • Typical start up delay: 44 ms • Average Current Consumption: 33 mA DESCRIPTION PIN SIGNAL NAME The GP2D120 is a distance measuring sensor with integrated signal processing and analog voltage output. 1 VO 2 GND 3 VCC GP2D120-8 Figure 1. Pinout GND VCC PSD SIGNAL PROCESSING CIRCUIT VOLTAGE REGULATOR OSCILLATOR CIRCUIT OUTPUT CIRCUIT LED DRIVE CIRCUIT Vo LED MEASURING DISTANCE IC GP2D120-4 Figure 2. Block Diagram 1 Data Sheet GP2D120 ELECTRICAL SPECIFICATIONS Absolute Maximum Ratings Ta = 25°C, VCC = 5 VDC PARAMETER SYMBOL RATING UNIT Supply Voltage VCC -0.3 to +7 V Output Terminal Voltage VO -0.3 to (VCC +0.3) V Operating Temperature Topr -10 to +60 °C Storage Temperature Tstg -40 to +70 °C Operating Supply Voltage PARAMETER SYMBOL RATING UNIT Operating Supply Voltage VCC 4.5 to 5.5 V Electro-optical Characteristics Ta = 25°C, VCC = 5 VDC PARAMETER SYMBOL Measuring Distance Range ΔL Output Terminal Voltage VO CONDITIONS MIN. TYP. MAX. UNIT NOTES 4 — 30 cm 1, 2 L = 30 cm...
Healing Gardens: Creating Places for Restoration, Meditation, and Sanctuary What are the defining characteristics that make a healing garden? Keywords: healing gardens, restoration gardens, sanctuary gardens A thesis Prepared by Annalisa Gartman Vapaa Committee Chair: Dr. Margaret Bryant Committee Member: Brian Katen Committee Member: Bill Mills Defense Date: April 29, 2002 Virginia Polytechnic Institute and State University College of Architecture and Urban Studies Master’s of Landscape Architecture Abstract The “healing garden” is an evolving concept that is gaining popularity today. What is a healing garden? Why is one garden called a healing garden and not another? How is a healing garden defined? In what way are gardens healing? This thesis describes the ways in which healing gardens are beneficial in healthcare and residential settings. A set of guidelines for the design of healing gardens is created as a result of research findings as well as three design projects that are illustrated in the document.
PEMBAHASAN DAN KUNCI JAWABAN GEOGRAFI KELAS XII PAKET B 1. Berdasarkan soal nomor 1 a. Konsep aglomerasi adalah merupakan gabungan, kumpulan, 2 atau lebih pusat kegiatan dalam 1 lokasi/kawasan terterntu seperti kawasan industri, pemukiman, perdagangan, dsb. b. Konsep morfologi menjelaskan kenampakan bentuk-bentuk muka bumi, seperti dataran rendah, lereng, bukit/dataran tinggi. c. Konsep pola menitik beratkan pada pola keruangan baik fisik maupun sosialnya seperti pola permukiman penduduk, pola aliran sungai, dsb. d. Konsep lokasi mengkaji letak suatu objek dipermukaan bumi. Pada konsep ini utamanya dalam menjawab pertanyaan dimana (where). e. Konsep ketergantungan adalah konsep yang menunjukkan keterkaitan keruangan antar wilayah akibat adanya perbedaan potensi antar wilayah. Seperti keterkaitan antara desa dengan kota. Kunci jawaban D 2. Prinsip-prinsip geografi ada 4 a. Prinsip deskripsi, merupakan penjelasan lebih jauh mengenai gejala-gejala yang diselidiki/dipelajari. Deskripsi disajikan dalam bentuk tulisan, diagram tabel/gambar/peta. b. Prinsip korologi, merupakan gejala, fakta/masalah geografi disuatu tempat yang ditinjau dari sebaran, interelasi, interaksi, dan integrasinya dalam ruang. c. Prinsip persebaran, merupakan suatu gejala dan fakta yang tersebar tidak merata dipermukaan bumi. d. Prinsip interelasi, merupakan suatu hubungan yang saling terkait dalam ruang antara gejala yang 1 dengan gejala lain. e. Prinsip distribusi, merupakan suatu gejala dan fakta yang tidak merata dipermukaan bumi.
The Foundation Center have focused on the ultimate uses and beneficiaries of the donations raised by the relief funds from all sources, and we have issued a comprehensive report on their funding activities and practices.1 While the scope of our 9/11-related efforts has expanded, we have continued to track the foundation and corporate response. Specifically, in the latest year we have added hundreds of new donors to our 9/11 database and thousands of individual gifts. This report provides an overview of 9/11 giving by institutional donors based on data compiled through September 2003, updating and expanding on the findings presented in our November 2002 report.2 The latest information was drawn primarily from 2001 and 2002 annual reports provided by foundation and corporate donors and from data reported by private foundations in their Form 990-PF tax returns. Information also comes from grantmaker news releases and Web sites and donor lists compiled by leading recipients, such as the September 11th Fund of the United Way of New York and the New York Community Trust and the American Red Cross.
Even if FM radio broadcasting is a fundamental means of communication, it can’t escape one of the big trends in electronics today: miniaturization. As mobile communication devices are gaining more and more functionalities, people still want to have the option of listening to FM radio on their smart phones or MP3 players. This can only be achieved through the miniaturization of the FM reception process by implementing all its functions into a microchip. This miniaturization process is widely used in the industry, but has not been explored in depth by undergraduate students. In order to appreciate the complexity of such a task, we decided to design an FM receiver in a microchip. To make the project more interesting, we chose to create a user interface facilitating its use.
1. Introduction The design of the All Digital FM Receiver circuit in this project uses Phase Locked Loop (PLL) as the main core. The task of the PLL is to maintain coherence between the input (modulated) signal frequency, ωi and the respective output frequency, ωo via phase comparison. This self-correcting ability of the system also allows the PLL to track the frequency changes of the input signal once it is locked. Frequency modulated input signal is assumed as a series of numerical values (digital signal) via 8-bit of analog to digital conversion (ADC) circuit. The FM Receiver gets the 8 bit signal every clock cycle and outputs the demodulated signal. The All Digital FM Receiver circuit is designed using VHDL, then simulated and synthesized using ModelSim SE 6 simulator and Xilinx ISE 6.3i, respectively. FPGA implementation also provided, here we use Virtex2 device. The real measurement is done using ChipScope Pro 6.3i. 2. Architecture Description The system of All Digital FM Receiver consists of a digital PLL cascaded with digital low pass filter. The block diagram of system is shown in Fig. 1.
LM3089 FM Receiver IF System Y General Description The LM3089 has been designed to provide all the major functions required for modern FM IF designs of automotive high-fidelity and communications receivers Y Features Y Y Y Three stage IF amplifier limiter provides 12 mV (typ) b 3 dB limiting sensitivity Balanced product detector and audio amplifier provide 400 mV (typ) of recovered audio with distortion as low as 0 1% with proper external coil designs Y Y Four internal carrier level detectors provide delayed AGC signal to tuner IF level meter drive current and interchannel mute control AFC amplifier provides AFC current for tuner and or center tuning meters Improved operating and temperature performance especially when using high Q quadrature coils in narrow band FM communications receivers No mute circuit latchup problems A direct replacement for CA3089E Connection Diagram Dual-In-Line Package TL H 7149 – 2 Top View Order Number LM3089N See NS Package Number N16E C1995 National Semiconductor Corporation TL H 7149 RRD-B30M115 Printed in U S A LM3089 FM Receiver IF System September 1992 Toko America 1250 Feehanville Drive Mount Prospect IL 60056 (312) 297-0070 TL H 7149 – 1