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SolidWorks Electrical 2013 Launching Project Manager On starting SolidWorks Electrical the Projects Manager will be automatically displayed. Through this interface it is possible to open existing projects, create new projects, delete projects, archive, (zip), unarchive, (unzip), create copies of projects or to change the properties of specific projects. There are two tabs listing projects: • • Recent projects: Projects recently opened in SolidWorks Electrical. All projects: All projects created/held within SolidWorks Electrical. Changing the project language The SolidWorks Electrical interface language can be changed via the “Tools->Interface configuration->Application language”. Select the preferred language from the pull down and restart the program to have the changes implemented. 4 3DS.COM © Dassault Systèmes | Confidential Information | 01/02/2012 ref.: Document_Reference | SolidWorks Electrical can be launched from the desktop shortcut or from the Windows Start, Programs, SolidWorks Electrical, SolidWorks Electrical. Alternatively use the desktop shortcut. Application tabs The number of tabs available is automatically updated by SolidWorks Electrical in order to provide tools that are relevant to the work being carried out, so that on opening a Wiring Diagram a Line Diagram tab will be activated, for example. Before opening a project there are a number of tabs that are available. 1. “File” tab 2. “Library” tab Provides tools to manage all the symbol types within SolidWorks Electrical in addition to manufacturers’ part data, and ERP connection. 3. “Tools” tab This tab includes commands to modify the application settings, chat to others connected to the same server, and set up graphic preferences. 4. “Help” tab The help tab accesses a tutorial, supporting documentation, collects information about your system…. 5 3DS.COM © Dassault Systèmes | Confidential Information | 01/02/2012 ref.: Document_Reference | Provides access to the Projects Manager, Quit the program, archive or unarchive environments, create new drawings…...
Titleblock design in SolidWorks Electrical Drawings (scheme, line diagram, terminal strip, etc.) are created using a copy of the Titleblock file. It is therefore useful to represent all the elements you wish to find in the drawings (logo, graphics, etc.) in the titleblock. The settings (display of the grid, types of lines, styles of texts, etc.) used in the titleblock will automatically be available in the drawing. A titleblock consists of graphics entities (lines, texts, etc.) and attributes allowing the propagation of the data entered in the properties of the elements of the project (book, folder, drawing, etc.). This article will explain how you can use SolidWorks Electrics’s built-in feature “title blocks manager” to customize existing title blocks and make new smart Title Block. Titleblock manager All the titleblocks are stored in a library allowing you to manage existing titleblocks and also to create your own. New: Used to create a new titleblock. Open: Used to open the selected titleblock(s) in the graphical interface in order to modify the SolidWorks Electrical Tips & Tricks graphics and/or the definition of the attributes. DWG import: Used to import a file in AutoCAD format and transform it into a titleblock. Delete: Used to delete the selected titleblock(s). Properties: Used to open the properties of the selected titleblock. Preview: Used to open the selected titleblock in a preview window. Cut / Copy / Paste: Used to duplicate the selected titleblock. List mode / Thumbnails / Configuration: Used to manage the display and display configuration of the titleblocks in the right-hand part of the dialog box. Archive / Unarchive: Used to generate a ZIP file of the selected titleblock(s). Unarchiving allows titleblocks in the archive file to be added to the library. This procedure can be used to exchange titleblocks between two companies for example. Display sub-classes content: Used to activate display of titleblocks stored in the lower levels of the classes. Close the manager when editing titleblock: If this box is checked, the manager closes automatically when you edit a titleblock. Editing a titleblock Whether the titleblock has been imported or created using the Copy/Paste command, you can edit it to make any changes you wish. Select the titleblock you wish to edit in the right- hand part of the titleblocks manager and click on the "Open" icon. The titleblock opens in a graphical interface.
Low-Power Narrowband FM Receiver . . . includes dual FM conversion with oscillators, mixers, quadrature discriminator, and meter drive/carrier detect circuitry. The MC3362 also has buffered first and second local oscillator outputs and a comparator circuit for FSK detection. • Complete Dual Conversion Circuitry... LOW–POWER DUAL CONVERSION FM RECEIVER Low Voltage: VCC = 2.0 to 6.0 Vdc SEMICONDUCTOR TECHNICAL DATA Low Drain Current (3.6 mA (Typical) @ VCC = 3.0 Vdc) Excellent Sensitivity: Input Voltage 0.6 µVrms (Typical) for 12 dB SINAD Externally Adjustable Carrier Detect Function Low Number of External Parts Required P SUFFIX PLASTIC PACKAGE CASE 724 Manufactured Using Motorolais MOSAICr Process Technology MC13135 is Preferred for New Designs DW SUFFIX PLASTIC PACKAGE CASE 751E (SO-24L) Figure 2. Pin Connections and Representative Block Diagram Figure 1. Simplified Application in a PLL Frequency Synthesized Receiver 1st Mixer Input 1 RF Input to 200 MHz 2nd LO Output 2
FM Radio Receiver • FM Radio Block Diagram • Aliased ADC • Channel Selection • Channel Selection (1) • Channel Selection (2) • Channel Selection (3) • FM Demodulator • Differentiation Filter • Pilot tone extraction • Polyphase Pilot tone • Summary DSP and Digital Filters (2013-3924) 14: FM Radio Receiver FM Radio: 14 – 1 / 12 FM Radio Block Diagram 14: FM Radio Receiver • FM Radio Block Diagram • Aliased ADC • Channel Selection • Channel Selection (1) • Channel Selection (2) • Channel Selection (3) • FM Demodulator • Differentiation Filter • Pilot tone extraction • Polyphase Pilot tone • Summary FM spectrum: 87.5 to 108 MHz 200 kHz per channel 87.5 108 MHz [This example is taken from Ch 13 of Harris: Multirate Signal Processing] DSP and Digital Filters (2013-3924) FM Radio: 14 – 2 / 12 FM Radio Block Diagram 14: FM Radio Receiver • FM Radio Block Diagram • Aliased ADC • Channel Selection • Channel Selection (1) • Channel Selection (2) • Channel Selection (3) • FM Demodulator • Differentiation Filter • Pilot tone extraction • Polyphase Pilot tone • Summary FM spectrum: 87.5 to 108 MHz Each channel: ±100 kHz 200 kHz per channel 87.5 108 MHz [This example is taken from Ch 13 of Harris: Multirate Signal Processing] DSP and Digital Filters (2013-3924) FM Radio: 14 – 2 / 12 FM Radio Block Diagram 14: FM Radio Receiver • FM Radio Block Diagram • Aliased ADC • Channel Selection • Channel Selection (1) • Channel Selection (2) • Channel Selection (3) • FM Demodulator • Differentiation Filter • Pilot tone extraction • Polyphase Pilot tone • Summary FM spectrum: 87.5 to 108 MHz Each channel: ±100 kHz 200 kHz per channel Baseband signal: Mono (L + R): ±15 kHz 87.5 108 MHz L-R L+R RDS 0 15 19 23 38 53 57 kHz [This example is taken from Ch 13 of Harris: Multirate Signal Processing] DSP and Digital Filters (2013-3924) FM Radio: 14 – 2 / 12 FM Radio Block Diagram 14: FM Radio Receiver • FM Radio Block Diagram • Aliased ADC • Channel Selection • Channel Selection (1) • Channel Selection (2) • Channel Selection (3) • FM Demodulator • Differentiation Filter • Pilot tone extraction • Polyphase Pilot tone • Summary FM spectrum: 87.5 to 108 MHz Each channel: ±100 kHz 200 kHz per channel Baseband signal: Mono (L + R): ±15 kHz Pilot tone: 19 kHz 87.5 108 MHz L-R L+R RDS 0 15 19 23 38 53 57 kHz [This example is taken from Ch 13 of Harris: Multirate Signal Processing] DSP and Digital Filters (2013-3924) FM Radio: 14 – 2 / 12
The TDA7000 is a monolithic integrated circuit for mono FM portable radios, where a minimum on peripheral components is important (small dimensions and low costs). The IC has an FLL (Frequency-Locked-Loop) system with an intermediate frequency of 70 kHz. The i.f. selectivity is obtained by active RC filters. The only function which needs alignment is the resonant circuit for the oscillator, thus selecting the reception frequency. Spurious reception is avoided by means of a mute circuit, which also eliminates too noisy input signals. Special precautions are taken to meet the radiation requirements. The TDA7000 includes the following functions: • R.F. input stage • Mixer • Local oscillator • I.F. amplifier/limiter • Phase demodulator • Mute detector • Mute switch QUICK REFERENCE DATA 2,7 to 10 V Supply voltage range (pin 5) VP Supply current at VP = 4,5 V IP typ. R.F. input frequency range frf 1,5 to 110 MHz 8 mA Sensitivity for -3 dB limiting (e.m.f. voltage) (source impedance: 75 Ω; mute disabled) EMF typ. 1,5 µV EMF typ. 200 mV Signal handling (e.m.f. voltage) (source impedance: 75 Ω) A.F. output voltage at RL = 22 kΩ Vo PACKAGE OUTLINE 18-lead DIL; plastic (SOT102HE); SOT102-1; 1996 July 24. May 1992 2 typ. 75 mV Philips Semiconductors Product speciﬁcation FM radio circuit TDA7000 Fig.1 Block diagram. May 1992 3 Philips Semiconductors Product speciﬁcation FM radio circuit TDA7000 RATINGS Limiting values in accordance with the Absolute Maximum System (IEC 134) Supply voltage (pin 5) VP max. 12 V Oscillator voltage (pin 6) V6-5 Total power dissipation see derating curve Fig.2 Storage temperature range Tstg Operating ambient temperature range Tamb VP−0,5 to VP + 0,5 V −55 to +150 °C 0 to + 60 °C Fig.2 Power derating curve. D.C. CHARACTERISTICS VP = 4,5 V; Tamb = 25 °C; measured in Fig.4; unless otherwise speciﬁed... A.C. CHARACTERISTICS VP = 4,5 V; Tamb = 25 °C; measured in Fig.4 (mute switch open, enabled); frf = 96 MHz (tuned to max. signal at 5 µV e.m.f.) modulated with ∆f = ± 22,5 kHz; fm = 1 kHz; EMF = 0,2 mV (e.m.f. voltage at a source impedance of 75 Ω); r.m.s. noise voltage measured unweighted (f = 300 Hz to 20 kHz); unless otherwise speciﬁed... Signal handling (e.m.f. voltage) for THD < 10%; ∆f = ± 75 kHz Signal-to-noise ratio Total harmonic distortion AM suppression of output voltage (ratio of the AM output signal referred to the FM output signal) FM signal: fm = 1 kHz; ∆f = ± 75 kHz AM signal: fm = 1 kHz; m = 80% Ripple rejection (∆VP = 100 mV; f = 1 kHz) Oscillator voltage (r.m.s. value) at pin 6 Variation of oscillator frequency ∆fosc...
This lab explores superheterodyne single and dual conversion receiver subsystems for analog and digital modulation. Two VHF (30–300 MHz) FM receivers are considered. The ﬁrst receiver employes a wideband (about 200 kHz) IF subsystem centered at 10.7 MHz, while the second employes a narrowband (about 10 kHz) IF subsystem centered at 455 kHz. The narrowband FM receiver also utilizes dual conversion, with the ﬁrst IF at 10.7 MHz and the second IF at 455 kHz. Both receivers have been constructed using readily available radio frequency integrated circuits (RFICs) from NXP semiconductor1 . The receivers are presently in prototype form, constructed on an RF breadboard. In the future the receivers will be fabricated using a custom PCB. The high sensitivity of these receivers allows the wideband receiver to easily tune in FM broadcast stations and the narrowband receiver to receive the Colorado Springs national weather service (NOAA) station, and lab broadcast frequency shift keyed (FSK) digital modulation. Wideband FM Receiver The block diagram for the wideband receiver is given in Figure 1. The low-noise ampliﬁer (LNA) is not implemented at this time, nor is the front-end bandpass ﬁlter (BPF). A short wire (clip lead) will serve as the antenna in the experiment. The receiver requires and external local oscillator... LO frequency is 160 MHz. With low-side tuning for the LO, this means that carrier frequencies up 160 + 10.7 = 170.7 MHz can down-converted. The doubler is a passive circuit from Minicircuits2 , which in simple terms acts as a full-wave rectiﬁer, which has a strong second harmonic component. The mixer output is processed with a multistage IF ampliﬁer, with the 10.7 MHz IF passband shaping formed using ceramic ﬁlters. The nominal bandwidth of each ﬁlter is 280 kHz. Note from the schematic of Figure 2, the ceramic ﬁlters are external to the NXP SA636 RFIC. The ﬁnal stage 10.7 MHz IF BPF SFE10.7 An RF receiver needs to have high gain in order process weak signals arriving from a transmitter located many miles away. High gain over a wide bandwidth is hard to manage from a stability standpoint. Sensitive radio receivers also need to be very selective, that is supply high gain over just a relatively narrow band of frequencies. For the case of an FM receiver the needed bandwidth...
What occurred on September 11th, 2001 is a matter of facts, physics and unprecedented violations of national protocol by American officials themselves. Here are 10 points to consider. There are hundreds more. What occurred on September 11th, 2001 is a matter of facts, physics and unprecedented violations of national protocol by American officials themselves. Here are 10 points to consider. There are hundreds more. 1. No steel-framed building before or since 9/11 has ever collapsed due to fire. 2. No official agency (FAA, FBI, or the airlines) has ever released a list of the 9/11 passengers. But within hours, the FBI released a list of the hijackers. 3. Multiple air-defense drills were planned for the morning of 9/11. These exercises left only two fighter jets available to protect the entire Northeastern United States. 4. Building 7, a 47-story skyscraper and part of the World Trade Center complex, was not struck by a plane but collapsed in 6.5 seconds at 5:20 p.m. on September 11th, in the exact manner of a controlled demolition. 5. There was no visible airplane debris where Flight 93 supposedly crashed in Pennsylvania – only a smoking hole in the ground, much like a bomb crater. 6. Office fires burn at low temperatures of 600-800 dF. Jet fuel is an ordinary hydrocarbon; its maximal burning temperature is 1200 dF in open air. Steel melts at 2750 dF. Neither jet fuel nor the burning contents of the buildings could cause the towers’ steel structure to buckle or fail. 7. Tests have shown that cell-phone calls cannot be made at altitudes over 4000 to 8000 feet, as cell towers are located on the ground. Commercial airplanes fly at 30,000 feet and above. No passenger could have successfully placed a call for help by cell phone from an airborne plane on 9/11, as reported. 8. 9/11 was immediately declared an “act of war” by President Bush. The rubble from the Twin Towers’ collapse was carted away and the steel sold and shipped overseas without examination. 9. Enormous profits were made by insiders on plummeting stock prices of the two airlines involved in 9/11 – American and United. Federal law protects their identities. 10. Accepting victims’ compensation barred 9/11 families from further discovery through litigation. To download and print copies of this list, visit 911WeKnow.com. Pass around and engage in discussion!
[183 Pages Report] Circuit Breaker Market & Fuse Market categories the Global Market by type (Medium, High, Low Voltage), Application Non-Residential/Residential Construction, Electronic/Electrical Equipment, Transportation Equipment (Automotive/Non-Automotive) & by Geography. The report defines and segments the circuit breaker & fuse market with analysis and forecasting of the global revenue.
RoHS compliant 1. pyroelectric sensor modules contain the necessary functions in a small package (TO-5). These miniature, high-performance infrared human detection sensors take the trouble out of circuit design and mounting. Lens IC PIR element Chip parts Lens Capacitor Sensor module PC board 4. Small temperature differences also detected. detects the temperature difference between the detection target and its surroundings, and the lowest required temperature difference to the background is 4°C 7.2°F. This means that temperature differences can be accurately detected not only in winter, when the temperature differences are large, but also in summer, when temperature differences are slight. Shielded plate Winter 2. Ideal for small-movement detection thanks to quad-type pyroelectric element. The quad-type pyroelectric element contained in has four receptors. Since the detection zone within the detection range is so precise, even small movements can be detected. Representation of detection Summer Floor temperature: 22°C 71.6°F Floor temperature: 30°C 86.0°F Large temperature difference Small temperature differences mean difficult detection. Temperature difference: 12°C 53.6°F Temperature difference: 4°C 7.2°F Surface temperature: 34°C 93.2°F Lens Quad-type pyroelectric element Focal length (distance between element and lens) Detection zone 5. Excellent noise resistance (radiation noise, power supply noise) The entire circuitry is enclosed in a metal package, which means it has extremely high electromagnetic shielding capabilities. With proven resistance against power supply noise, it is also resistant against power supply superimposed noise. Radiation Power supply noise superimposed Vd noise OUT GND ASCTB240E 201201-T Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e Motion sensors FEATURES MP Motion Sensor (AMN2, 3, 4) TYPICAL APPLICATIONS 4. Anti-crime device market: crime prevention sensor, simple anti-crime devices, surveillance cameras 1. Home appliance market: Air conditioner, air puriﬁer and fan heater 2. Construction equipment: lighting, automatic switches 3. Commercial equipment: vending machines, facilities for designated smoking areas ORDERING INFORMATION AMN Output type 2: Analog output 3: Digital output 4: Low current consumption (digital output) Detection performance 1: Standard detection type 2: Slight motion detection type 1 3: Spot detection type 4: 10m detection type Feature 1: PC board mounting type 2: 3V DC Lens color 1: Black Motion sensors Operating voltage 1: 5V DC 2: White PRODUCT TYPES Output type Digital output Low current consumption type Digital output Analog output Black White Black White Black White AMN31111 AMN31112 AMN32111 AMN32112 AMN33111 AMN33112 AMN41121 AMN41122 AMN42121 AMN42122 AMN43121 AMN43122 AMN21111 AMN21112 AMN22111 AMN22112 AMN23111 AMN23112 Black White AMN34111 AMN34112 AMN44121 AMN44122 AMN24111 AMN24112 Detection performance Lens color Standard detection type Slight motion detection type Spot detection type 10m detection type Standard packing: Carton: 50 pcs.; Case: 1,000 pcs. RATING 1. Detection performance Standard detection type Slight motion detection type Spot detection type 10m detection type Max. 5m 16.404ft Max. 2m 6.562ft Max. 5m 16.404ft Max. 10m 32.808ft Horizontal Note 2) 100° 91° 38° 110° Vertical Note 2) 82° 91° 22° 93° 64 zones 104 zones 24 zones 80 zones Items Rated detection distance Note 1) Detection range Detection zone Note 3) Conditions of objects to be detected 1. Detectable difference in temperature between the target and background is more than 4°C 7.2°F. 2. Movement speed 1) Digital output type • Standard detection type/Spot detection type/ 10m detection type: 0.8 to 1.2 m/s • Slight motion detection type: 0.5 m/s 2) Analog output and low current consumption types • Standard detection type/Spot detection type/ 10m detection type: 0.5 to 1.5 m/s • Slight motion detection type: 0.3 to 1.0 m/s 3. Detection object = human body (size is 700mm × 250mm 27.559inch × 9.843inch, but for the slight motion detection type the size is 200mm × 200mm 7.874inch × 7.874inch) Notes: 1. Depending on the difference in temperature between the background and detection target and the speed at which the target moves, these sensors may be capable of detection beyond the detection distances stated above. Nevertheless, they should be used within the prescribed detection distances. For further details, refer to the detection range diagram on page 24. 2. This angle represents the center point of the detection zone Vertical Vertical created by the outermost lens. Horizontal Cut out (Standard detection/ Slight motion detection type) Horizontal Cut out This point
Never spill liquid of any kind onto or into the product. To avoid damage of internal components and to prevent battery leakage, do not place the product on a vibrating surface. Never use it under sporting, exercising, or any vibrating environment which will probably cause unexpected short current or damage rotor devices, HDD, Optical drive, and even exposure risk from lithium battery pack. · · · Using electrical power · This product should be operated from the type of power indicated on the marking label. If you are not sure of the type of power available, consult your dealer or local power company. Do not allow anything to rest on the power cord. Do not locate this product where people will walk on the cord. If an extension cord is used with this product, make sure that the total ampere rating of the equipment plugged into the extension cord does not exceed the extension cord ampere rating. Also, make sure that the total rating of all products plugged into the wall outlet does not exceed the fuse rating. Do not overload a power outlet, strip or receptacle by plugging in too many devices. The overall system load must not exceed 80% of the branch circuit rating. If power strips are used, the load should not exceed 80% of the power strip's input rating. This product's AC adapter is equipped with a three-wire grounded plug. The plug only fits in a grounded power outlet. Make sure the power outlet is properly grounded before inserting the AC adapter plug. Do not insert the plug into a non-grounded power outlet. Contact your electrician for details. · · · · Warning! The grounding pin is a safety feature. Using a power outlet that is not properly grounded may result in electric shock and/or injury. v Note: The grounding pin also provides good protection from unexpected noise produced by other nearby electrical devices that may interfere with the performance of this product. · Use the product only with the supplied power supply cord set. If you need to replace the power cord set, make sure that the new power cord meets the following requirements: detachable type, UL listed/CSA certified, type SPT-2, rated 7 A 125 V minimum, VDE approved or its equivalent, 4.6 meters (15 feet) maximum length. Product servicing Do not attempt to service this product yourself, as opening or removing covers may expose you to dangerous voltage points or other risks. Refer all servicing to qualified service personnel. Unplug this product from the wall outlet and refer servicing to qualified service personnel when: · the power cord or plug is damaged, cut or frayed · · · · · liquid was spilled into the product the product was exposed to rain or water the product has been dropped or the case has been damaged the product exhibits a distinct change in performance, indicating a need for service the product does not operate normally after following the operating instructions Note: Adjust only those controls that are covered by the operating instructions, since improper adjustment of other controls may result in damage and will often require extensive work by a qualified technician to restore the product to normal condition. Guidelines for safe battery usage This notebook uses a Lithium-ion battery. Do not use it in a humid, wet or corrosive environment. Do not put, store or leave your product in or near a heat source, in a high temperature location, in strong direct sunlight, in a microwave oven or in a pressurized container, and do not expose it to temperatures over 60°C (140°F). Failure to follow these guidelines may cause the battery to leak acid, become hot, explode or ignite and cause injury and/or damage. Do not pierce, open or disassemble the battery. If the battery leaks and you come into contact with the leaked fluids, rinse thoroughly with water and seek medical attention immediately. For safety reasons, and to prolong the lifetime of the battery, charging will not occur at temperatures below 0°C (32°F) or above 40°C (104°F). The full performance of a new battery is achieved only after two or three complete charge and discharge cycles.. Your user manual ACER ASPIRE 5315 Powered by TCPDF (www.tcpdf.org)