Digital Projection M-vision Cine 230 Specifications
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Digital Projection International (DPI), Texas Instruments’ first DLP™ partner and the original innovator of the 3-chip DLP™ projector, proudly introduces the new M-Vision Cine 230. Equipped with the powerful imaging fidelity of Texas Instruments’ DLP® technology, the single chip, single lamp M-Vision Cine 230 adds the most affordable 1920 x 1080 precision display to DPI’s extensive single chip product line. Optimized for SMTPE 709 standards, the M-Vision Cine 230 produces 1,000 lumens and 3000:1 native contrast. Engineered specifically to showcase high-definition home entertainment, the Cine 230 is a color-performance-focused home cinema projector. The high lumen output and contrast allow the Cine 230 to thrive in cinemas with screens up to 10’ wide, as well as in media rooms with some ambient light and smaller screen sizes. The compact and exceptionally quiet M-Vision chassis, 1080p resolution, integrated electronics and straightforward user interface make the M-Vision Cine 230 a compellling solution for home entertainment spaces wanting to maximize perfor- mance on a budget. Sharing the same elegant Cine body design as the existing M-Vision product line, the Cine 230 uses an RGB RGB color wheel which ensures superior color gamut and saturation. Installation is incredibly flexible due to the M-Vision Cine 230’s compact and lightweight chassis design, and extraordinary lens shift range of 30% horizontal and 120% vertical. Multiple lens options provide further flexibility, with a throw ratio ranging from 1.25 to 3.0:1. There is also a fixed lens which offers a .73:1 throw ratio. Connectivity includes two HDMI inputs, as well as RGB via D-15, component, composite and S-Video inputs. As is the case with all Digital Projection displays, our careful engineering guarantees M-Vision displays provide remark- able contrast and color saturation for years to come. Equally important, our legacy in superior customer and technical ser- vices assures our experienced support staff is always available to address your needs. Overview PERFORMANCE SPECIFICATIONS Brightness (±10%) M-Vision Cine 230 HC: 1000 Lumens Contrast: M-Vision Cine 230 HC: 3000:1 Contrast Display Type Texas Instrument DMD 0.95” x 1, DDR DLP Darkchip Native White D65 Sequential Color Management 6 Segment Color Wheel Native Resolution 1920 x 1080 pixels Aspect Ratio 16 x 9 Computer Compatibility Up to 1920 x 1080 Color Temperature 5500 to 9300 degrees Kelvin Video Compatibility NTSC, SECAM, PAL, HDTV, HDCP on HDMI 1.3, Throw Ratio .73 fixed 1.56 - 1.86:1 1.85 - 2.40:1 .8:1 Conversion lens 1.25:1 Conversion lens Bandwidth (up to) 200 mHz on analog RGB 165 mHz on HDMI Throw Distance 98” - 350” Image Size 40” - 224” Lens Shift (maximum) Vertical: .7 of frame if horizontal is at 0% position Horizontal: .3 of frame if vertical is at 0% position NOTE: .73 fixed lens has NO LENS SHIFT as it is meant as an on-axis lens and is best suited for rear screen projection applications. Lamp Life (Typical) 1 3,000 hours Mechanical Mounting Front/rear table Front/rear ceiling Adjustable front/rear feet Operating Noise Level
DIGITAL PROJECTION, INC. • 55 CHASTAIN ROAD, SUITE 115 KENNESAW, GA. 30144 • T: 770.420.1350 • F: 770.420.1360 • www.digitalprojection.com DIGITAL PROJECTION, LTD. • GREENSIDE WAY, MIDDLETON MANCHESTER, UK. M24 1XX • T: +44.161.947.3300 • F: +44.161.684.7674 • www.digitalprojection.co.uk DIGITAL PROJECTION, CHINA • TOWER C, RM C1202, CAI FU JIA YUAN, NO. 19 XIA0 YING STREET, CHAOYANG DISTRICT BEIJING, PR CHINA 100101 • T: +86.10.58239771• F: +86 10 58239770 DIGITAL PROJECTION, ASIA • 16 NEW INDUSTRIAL ROAD, #02-10 HUDSON TECHNOCENTRE SINGAPORE 536204 • T: +65.6284.1138 • F: +65.6284.1238 HDTV Formats SupportedScan Rates Supported Remote Control Automation Control Operating/Storage Temperature Operating HumidityThermal Dissipation Fan Noise Power Requirements Power Consumption Safety and EMC Regulations ADVANCED TECHNICAL SPECIFICATIONS PARAMETERS 1080p, 1080i, 720p, 576i/p, 480i, 480p Vertical 43-85 HZ; Horizontal TBA Remote wireless IRRS232 9-pin D sub Operating: 10 to 35°C at 0-7500’, 50 to 90F / Storage: -20°C t\ o 60°C, -4 to 140F 20% to 85%, non-condensing 1500 BTU/hour
hp calculators HP 35s Introduction to the training aids hp calculators - 3 - HP 35s Introduction to the training aids - Version 1.0 Calculator Settings and Resetting the Calculator The training aids assume that the HP 35s modes and settings are as they would be when a new HP 35s is turned on the first time. Changes to these settings needed for examples are described in the training aids. After some examples have been worked through, the HP 35s settings might be very different from the original ones. A quick way to return to the standard settings is to perform a MEMORY CLEAR, but note that this will clear all of the calculator memory. Press and hold down the . key, then press and hold down the 2 key as well, and press the 6 key. Now release all three keys, and the display will show MEMORY CLEAR to say that everything has been cleared from the calculator memory, and all settings have returned to their original values. DO NOT DO THIS IF YOU WANT TO KEEP ANY PROGRAMS, EQUATIONS OR DATA THAT ARE IN YOUR CALCULATOR. If you want to keep what is in memory but return the settings to their original values, you will have to change the settings one by one.
hp calculators HP 35s Using RPN Mode Calculation modes A simple example in RPN Functions of a single number in RPN Arithmetic calculations with two numbers Another example - the area of a piece of carpet RPN mode in detail Making corrections Functions of two numbers Example – which stepladder?
hp calculators HP 35s Using RPN Mode hp calculators - 2 - HP 35s Using RPN Mode - Version 1.0 Calculation modes The HP 35s allows calculations to be made in “RPN” mode, in “algebraic” mode, or in “Equation” mode. Algebraic and Equation modes and programs are described in other training aids. RPN mode is the traditional way most HP calculators work. To add 1 and 2, keys are pressed in the order !#$. This mode is very suitable for calculations where the user is working towards a solution, without having a particular formula to work on. Note: When doing the examples press 95 to set RPN mode, or 94 to clear RPN mode and set algebraic mode. The selected mode is shown at the top of the calculator screen. Functions of a single number in RPN In RPN mode, to square a number, the number is typed, then the %& key is pressed. If a second number is to be squared, the steps are repeated. A simple example in RPN Example 1: A gardener wants to plant a triangular piece of ground and to put protective edges around the plot. The plot will have a right angle and the two shorter edges will be 1.2m long and 0.5m long. How long will the third edge be? Solution: The length can be calculated using Pythagoras’ formula. From a² + b² = c² the third side is: c = !(a² + b²) To calculate this, it is first necessary to square the numbers 1.2 and 0.5. On a calculator, the square of a number is a function of a single number. It does not involve adding or multiplying two numbers. To square 1.2 and 0.5, it is enough to type: !#%&(%&) Figure 1 Answer: The second result, 0.25, is on the lower line of the calculator screen, called the X register. The previous result, 1.2 squared, is on the upper line, called the Y register. Registers are places where numbers are held in the calculator; X and Y are the first two registers in the RPN stack. The stack is the most important tool in RPN calculations. Its use is shown later in this example. Other functions of one number, for example sine, log or square root, work the same way. The number is typed and shows up in the lower line, in the X register. Then the function key, for example * or + is pressed to give the answer. The square and square root keys are labeled with an “x” as a reminder that they work on the number in the X register.
hp calculators HP 35s Using RPN Mode hp calculators - 3 - HP 35s Using RPN Mode - Version 1.0 Arithmetic calculations with two numbers Now that the lengths of the two sides have been squared, it is necessary to add the two squares. Figure 2 To add the two numbers, it is enough to press the add key. $ Figure 3 In RPN mode addition takes the number from the X register, uses it, and puts the result in the X register, so the result is seen on the lower line. This is like a function of one number, but because addition uses two numbers, it takes the second number from the Y register. The number in the Y register is removed. There is a third stack register above Y, called the Z register, and the number in the Z register moves down to the Y register. Subtraction, multiplication and division work the same way. The number in X is subtracted from, multiplied by, or divided into the number in Y. If the two numbers are in the wrong order, , can be used to exchange them. To get the final answer, since this is a function of a single number, it is enough to press the + function key. + Answer: The length of the third edge of the garden plot is 1.3m. Another example - the area of a piece of carpet Here is another example to show how arithmetical calculations involving addition and multiplication are carried out using the stack in RPN mode. RPN mode is best for users going through calculations a step at a time, and sometimes even changing their minds during the calculation. Press -.! then # to set FIX 2 mode, in which two digits will appear after the decimal point, as below. This is especially useful when calculations are made with prices in dollars and cents. RPN mode in detail Now press the keys. /)))This puts the 6 in the calculator, ENTER separates it from the next number )))The number 6 is in X and in Y after ENTER is pressed
hp calculators HP 35s Using RPN Mode hp calculators - 4 - HP 35s Using RPN Mode - Version 1.0 Figure 4 0)))This puts 8 in X, a new number replaces the previous one after ENTER is pressed Figure 5 $)))This adds the 8 to the 6 Figure 6 ()))This puts 5 in X. After a calculation, a new number pushes the old one into Y. Figure 7 1)))This multiplies the 14 by the 5 and leaves the result in X Figure 8 There is a clear pattern here. A number is typed, then something is done with that number. Then another number is typed, and something is done again. In this example, a new number is added to a number that was typed before, or multiplied by it, but RPN works the same way for other actions too. The RPN stack: At each step, RPN takes one or more numbers it needs from the stack of numbers, for example 6 and 8 above to add them. Then it puts the answer on the stack, ready for use at the next step. The stack holds 4 numbers, in registers called X, Y, Z and T. X is the number most recently typed or calculated and is shown on the lower line of the screen. Y is the number typed or calculated before X, and is shown on the upper line. Numbers in Z and T are not shown but are ready to be used if necessary. When a calculation uses the numbers in both the X and the Y registers, and puts the result in X, then the number in Z is copied into Y. The number in T is copied to Z, but also stays in T. The %2 key fetches a copy of the last number that was in X before the most recent calculation, so it can be used again or to correct mistakes. Two other keys are used with the RPN stack. 3 is called “roll down” and moves the number in Y down into X, Z to Y, T to Z and X to T. %4 is called “roll up” and moves the stack in the opposite direction, X up to Y and so on.
hp calculators HP 35s Using RPN Mode hp calculators - 5 - HP 35s Using RPN Mode - Version 1.0 he key has a special task in RPN. It copies into register Y the number typed or calculated in register X. This is s copies the number from X to Y, it can also be used to make a copy for other purposes, such as doubling a hy “RPN?” You might have noticed that calculating the carpet area in RPN did not use brackets, and RPN is actually aking corrections RPN mode, digits in a number that is being typed can be deleted with the 5 key. If a number has been completed RPN mode, %2 brings back the number that was in X before the most recent calculation. This can be used to two numbers are entered in the wrong order, , can be used to change the order in RPN mode. For example, if a calculation has gone completely wrong in RPN, it is enough to start over again. Any numbers left on the stack from unctions of two numbers nlike functions of a single number, the arithmetical operations $, 6, 1 and 7 use two numbers, but there are n often-used two-number function is the exponentiation or “power” function, and this works in the same way as $, xample 4: T useful if two numbers are being put on the stack, for example to add 1 and 2 !#$ is typed, and separates the 1 from the 2 so they are treated as two separate numbers, not as the one number 12. The number in Y is pushed into Z, the number in Z is pushed into T, and the number previously in T is lost. After is typed, another number immediately typed into the X register or recalled into it with the RCL function (described in a separate training aid) replaces the number in X. This allows to separate two numbers, and the second number goes in the X register. A number by means of $. Pressing repeatedly pushes the number in X into the Z and then the T registers. W designed to work without brackets. This often makes it a little quicker to use than algebraic mode. Mathematical notation without brackets was introduced by the Polish mathematician Jan Lukasiewicz in the 1920s. Since the operations such as $, 6 or 1 are done after the number is entered, this method of calculation is called Reverse Polish Notation, or RPN. The numbers it uses are on the stack, not inside brackets, so it is also called “Stack notation”. M In or calculated, this key deletes it completely. In correct a calculation. For example if a wrong number was added, then %26 corrects the error. If the number was to be used for multiplication instead, pressing %2 again, and then 1 will give the correct answer. If #78 is required, but 8# has been typed by mistake, it is enough to press , before 7 and the correct answer will be obtained. If previous calculations can be ignored. F U also some mathematical functions that use two numbers. A 6, 1 and 7 in RPN mode. E What is 2 to the power 10? olution: S The calculation is 210 using the 9 key. In RPN mode, put 2 in the Y register, put 10 in the X register, then press 9
hp calculators HP 35s Using RPN Mode hp calculators - 6 - HP 35s Using RPN Mode - Version 1.0 #!:9) nswer: ) A Two to the power 10 is 1,024, often called 1k in computing. works exactly like the arithmetical operators and is often considered to be one of them. Most other two-number orking with complex numbers, with pairs of numbers representing rectangular or polar coordinates and with pairs of xample – which stepladder? ome people will wonder why RPN is worth using if algebraic mode and Equation mode work the way expressions are xample 7: 9 functions work this way too. These are the root (or involution) function -;, quotient -07 then %E. This time the answer is 42.54 degrees. The ladder nswer: calculation for your neighbor’s 38 foot ladder. would be at a rather shallow angle and might slip away as you stand on it. A Neither ladder is really suitable. Maybe you should ask some other neighbors if they would lend you a ladder with a better length. What would be a good length? 30 degrees would probably still be too much,