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Download Full Brochure - Crossroads Cars

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 |

LM1949 Injector Drive Controller (Rev. C) - Texas Instruments

APPLICATIONS The LM1949 linear integrated circuit serves as an excellent control of fuel injector drive circuitry in modern automotive systems. The IC is designed to control an external power NPN Darlington transistor that drives the high current injector solenoid. The current required to open a solenoid is several times greater than the current necessary to merely hold it open; therefore, the LM1949, by directly sensing the actual solenoid current, initially saturates the driver until the “peak” injector current is four times that of the idle or “holding” current (Figure 19–Figure 22). This guarantees opening of the injector. The current is then automatically reduced to the sufficient holding level for the duration of the input pulse. In this way, the total power consumed by the system is dramatically reduced. Also, a higher degree of correlation of fuel to the input voltage pulse (or duty cycle) is achieved, since opening and closing delays of the solenoid will be reduced.

automotive fuel injector control using power + ... - Texas Instruments

Automotive Fuel Injector Control Using Power+™ Control with Power+ Arrays™ Devices The automotive industry is faced with increasingly strict environmental regulations which require that automotive module designs include real-time monitoring and off-line fault isolation. These requirements demand that protection and fault diagnostics be present in the module to help monitor emission levels and maintain system reliability. One area that is very sensitive to these requirements is the automotive powertrain. With today’s highly specialized fuel systems, fuel injector drive is of key interest. Texas Instruments has introduced four new devices, the TPIC46L01/02 and TPIC44L01/02, that are well-suited for fuel injector control applications. The 6-channel TPIC46L01/02 and the 4-channel TPIC44L01/02 are low-side pre-FET drivers capable of serial or parallel interface. These predrivers, which can control either TI’s Power+ Arrays™ or discrete power FET’s, allow the system designer the flexibility to select the power stage that best fits the particular system load requirements. A typical engine control unit (ECU) is shown in Figure 1. The ECU receives sensor and control inputs from the engine and drives medium-current loads that require protection and fault diagnostics. In a typical engine control module, loads...

Fuel Injectors - Power Stroke Diesel

Achieve Optimal 6.0L Power Stroke® Diesel Injector Performance The 6.0L Power Stroke Diesel Engine utilizes a hydraulic injection system where high pressure engine oil is used to compress diesel fuel. The fuel injector is used to precisely control the delivery of the fuel into the combustion chamber. Following appropriate maintenance intervals and using the proper Motorcraft Original Equipment parts will ensure optimal injector durability. Normal and Special Operating Conditions: Customers use Power Stroke Diesel engines for a variety of applications, creating a need for two distinct maintenance interval schedules. The first schedule, called “Normal Operating Conditions”, applies to most personal use vehicles. The second schedule, called “Special Operating Conditions”, applies to many commercial use applications, including: Frequent or extended idling – Over 10 minutes per hour of normal driving – Frequent low speed operation – Sustained heavy traffic less then 25 MPH (40 KMH) • One hour of idle time, is equal to approximately 25 miles (40 km) of driving If vehicle is operated in sustained ambient temperatures below -10°F (-23°C) or above 100°F (38°C) Operating in severe dust or off-road conditions Towing a trailer over 1,000 miles (1,600 km) Sustained, high speed driving at Gross Vehicle Weight Rating (maximum loaded weight for vehicle operation) Use of any Biodiesel • B5 is the maximum allowable blend to be used in any Power Stroke® Diesel...

AMSOIL P.i.: A Study in Performance

In response to Environmental Protection Agency (EPA) fuel economy and emissions regulations, fuel injection systems replaced carburetors in new vehicles in the 1980s. Fuel injectors allow more precise control of fuel than carburetors, improving fuel efficiency and minimizing emissions. However, in order to work efficiently, they must be kept clean. Because performance suffers as fuel injectors become dirty, the U.S. government mandated in the mid-1990s that all gasoline sold in the U.S. be formulated with a lowest additive concentration (LAC) level of detergent additives to help keep engines clean and emissions under control. However, it takes a very low level of additive to pass the tests, and most gasoline on the market contains as little as 123 parts per million (ppm) of additive. The low levels of detergent additives in modern gasoline allow deposits to build up on critical fuel system components, and most motorists are unaware of how dirty the insides of their engines are. AMSOIL P.i. Performance Improver is an effective one-tank, total fuel system cleaner. More potent than other fuel additives on the market, P.i. effectively cleans everything the fuel touches, including both port and direct fuel injectors, intake valves and combustion chambers, in only one single tank of gasoline, removing the deposits that have built up over thousands of miles. Removing engine deposits with P.i. effectively improves fuel economy, reduces emissions, restores power, performance and acceleration, reduces octane requirements, increases engine life and reduces maintenance costs.

The CEC DW10 Diesel Fuel Injector Fouling Test - Lubrizol

Diesel fuel injectors have always been prone to injector coking. However, the potential for negative impact on engine performance, emissions and fuel consumption is increasing, as injector designs become progressively more sophisticated. For example, the Euro 5 type injectors fitted to the Peugeot DW10 engine have 6 injector holes of size 110 microns, which is around the width of two human hairs. Injector holes for Euro 6 designs are predicted to go down to as little as 80 microns, with as many as 24 holes being used. Also contributing to this trend are other engineering factors such as increasing fuel injection pressures and temperatures. Finally, growing levels of biodiesel blending are also likely to increase coking severity. OEMs will need to know how their equipment behaves with respect to fouling and are keen to understand how different fuels and deposit control additives can control any coking that may occur. The engine used in the CEC injector coking test is a Peugeot DW10 2.0 litre common rail unit with a maximum injection pressure of 1600 bar, fitted with Euro 5 standard fuel injection equipment supplied by Siemens. The test procedure represents a step change in severity compared to the well understood CEC F-23-01 XUD9 method, which is based on a much older indirect injection engine. The method directly measures engine power, which is a function of the level of injector fouling.

DHT22 datasheet - Adafruit
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Aosong(Guangzhou) Electronics Co.,Ltd --------------------------------------------------------------------------------------------------------------------Tell: +86-020-36380552, +86-020-36042809 Fax: +86-020-36380562 http://www.aosong.com Email: thomasliu198518@yahoo.com.cn sales@aosong.com Address: No.56, Renhe Road, Renhe Town, Baiyun District, Guangzhou, China Digital-output relative humidity & temperature sensor/module AM2303 Capacitive-type humidity and temperature module/sensor Application: 1. Feature & Application: * Full range temperature compensated * Relative humidity and temperature measurement * Calibrated digital signal *Outstanding long-term stability *Extra components not needed * Long transmission distance * Low power consumption *4 pins packaged and fully interchangeable 2. Description: AM2303 output calibrated digital signal. It utilizes exclusive digital-signal-collecting-technique and humidity sensing technology, assuring its reliability and stability.Its sensing elements is connected with 8-bit single-chip computer. Every sensor of this model is temperature compensated and calibrated in accurate calibration chamber and the calibration-coefficient is saved in type of programme in OTP memory, when the sensor is detecting, it will cite coefficient from memory. Small size & low consumption & long transmission distance(20m) enable AM2303 to be suited in all kinds of harsh application occasions. Single-row packaged with four pins, making the connection very convenient. 3. Technical Specification: Model Power supply Output signal Sensing element Measuring range ...

MMA7660FC, 3-Axis Orientation/Motion Detection Sensor - Data Sheet

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

LM35 Precision Centigrade Temperature Sensors (Rev. D)

Product Folder Sample & Buy Technical Documents Support & Community Tools & Software LM35 www.ti.com SNIS159D – AUGUST 1999 – REVISED OCTOBER 2013 LM35 Precision Centigrade Temperature Sensors FEATURES DESCRIPTION The LM35 series are precision integrated-circuit temperature sensors, with an output voltage linearly proportional to the Centigrade temperature. Thus the LM35 has an advantage over linear temperature sensors calibrated in ° Kelvin, as the user is not required to subtract a large constant voltage from the output to obtain convenient Centigrade scaling. The LM35 does not require any external calibration or trimming to provide typical accuracies of ±¼°C at room temperature and ±¾°C over a full −55°C to +150°C temperature range. Low cost is assured by trimming and calibration at the wafer level. The low output impedance, linear output, and precise inherent calibration of the LM35 make interfacing to readout or control circuitry especially easy. The device is used with single power supplies, or with plus and minus supplies. As the LM35 draws only 60 μA from the supply, it has very low self-heating of less than 0.1°C in still air. The LM35 is rated to operate over a −55°C to +150°C temperature range, while the LM35C is rated for a −40°C to +110°C range (−10° with improved accuracy). The LM35 series is available packaged in hermetic TO transistor packages, while the LM35C, LM35CA, and LM35D are also available in the plastic TO-92 transistor package. The LM35D is also available in an 8-lead surface-mount smalloutline package and a plastic TO-220 package.

BMA180 Digital, triaxial acceleration sensor Data sheet

BMA180 Digital, triaxial acceleration sensor Data sheet Bosch Sensortec Data sheet Bosch Sensortec BMA180 data sheet Ordering code Please contact your Bosch Sensortec representative for the ordering code Package type 12-pin LGA Data sheet version 2.5 Document release date 07 December 2010 Document number BST-BMA180-DS000-07 Technical reference code(s) Rev. 2.5 Notes 0 273 141 053 Page 1 07 December 2010 Specifications are subject to change without notice. © Bosch Sensortec GmbH reserves all rights even in the photos industrial propertyare for illustrationrights of disposal such Product event of and pictures rights. We reserve all purposes only and may as copying and passing on to third parties. BOSCH and thethe real product’s appearance. differ from symbol are registered trademarks of Robert Bosch GmbH, Germany. Specifications within this document are preliminary and subject to change without notice. Document is not intended for publication. BMA180 Bosch Sensortec Data sheet BMA180 Triaxial, ultra high performance digital accelerometer with switchable granges and bandwidths and integrated thermometer Key information - Three-axis accelerometer with integrated temperature sensor - Ultra high performance g-sensor (ultra-low noise, ultra-high accuracy) with 14 bit ADC operation - Digital Interfaces: 4-wire SPI, I²C, interrupt pin - High feature set with customer programmable g-ranges, filters, interrupts, power modes, enhanced features, in-field calibration possibility for customers and self-test capability - Standard SMD package: LGA package, 3 x 3mm2 footprint, 0.9mm height - 256 bit EEPROM for calibration data and customer data - Low power: typically 650μA current even in 14 bit operation mode - Very low-voltage operation: +1.62V … +3.6V for VDD, +1.2V … +3.6V for VDDIO - Temperature range: -40°C … +85°C - RoHS compliant and halogen free - No external components needed besides 1 standard blocking capacitor for power supply - Process based on automotive-proven Bosch Silicon Surface Micromachining Key performance (all typical values) - Resolution/noise: - Ultra-low noise: 150μg/√Hz in low noise mode - 0.25mg ADC-resolution in 2g-mode...

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