DxO Optics Pro V4.2 Reference Manual

DxO Optics Pro V4.2 Reference Manual

DxO Optics Pro’s precise, calibrated corrections are based on unique algorithms derived from actual measurements made on real camera bodies and lenses. Thousands of test measurements are made on each body and lens combination, with every permutation of shooting parameters.

This is why the whole DxO Optics Pro system operates using what are called ‘Correction Modules’, each unique and specific to a particular body / lens combination; for this reason, you need to make sure you have the right module(s) for the bodies and/or lenses you use. All this means that DxO Optics Pro produces extremely accurate actual corrections of measured phenomena, instead of just subjective (and often impossibly time-consuming) manual approximations.

In addition, this new version 4 of the software also includes a number of corrections that are not camera-specific, so you can make the most of other images too, and some adjustments, going beyond purely correction, that you can perform manually for creative effect.

A simple workflow
The way the DxO Optics Pro workflow is organized is perhaps worth explaining briefly. You start by creating a new ‘project’, which you can name and save, and into which you will assemble the pictures you wish to process at this time. You can then click on the “Process Now” button to start processing the images with DxO automatic presets. Alternatively, you can work on preview images to define your own corrections or adjustments. And it’s worth underlining that your original image files are left untouched, they are never altered in any way, deleted, or overwritten, so your precious originals are 100% safe at all times!

What makes DxO Optics Pro even more powerful and ergonomic, is that some or all of your chosen settings can be saved as one or more ‘presets’ that can be applied across a whole series of images — but still leaving you the possibility of making further manual adjustments too, of course! Even without the use of any manual settings at all, DxO Optics Pro can process your images fully automatically, for guaranteed improved results every time!

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GPS-Photo Link: Express Manual

GPS-Photo Link: Express Manual

GPS-Photo Link is designed to run on one computer at a time. To activate your software, begin by inserting the disc into the CD-ROM drive, installation will start automatically. When it is done, select “Run” and the program will begin by showing you the Activation screen.
When you first install the software it becomes available in trial mode. If you select “OK” the software will be begin in trial mode. This version will run for 15 days with limited features including only processing 10 photos and adding watermarks to each photo.

Using GPS-Photo Link
The GPS-Photo Link camera icon should be available on your desktop after installation. When you click on the icon you will be prompted to begin processing your photos.
Processing Photos
When you click on the GPS-Photo Link icon, the select photos window will appear on your screen. This is the first step in processing your photos.

GPS-Photo Link allows you to use embedded GPS data from the Ricoh 500SE, the Nikon CoolPix P6000, and the iPhone as well as GPS data from separate sources. On this screen you will tell GPS-Photo Link which type of GPS data you are using.
• Download - Reads the data directly from a Garmin GPS, Magellan GPS, or the GPS Datalogger.
• Use GPS Data in File - Imports GPS data that was saved by another program (or reuses data stored by downloading from a device), click on the browse button to find the file with your GPS data. If you are importing from Pathfinder Office, see specific import instructions in the online help guide.
• Use GPS Data in Photo - Imports the data that was saved as part of the photo. Select this option if you are using the Ricoh 500Se, Nikon CoolPix P6000 or a cell phone which embeds the GPS data directly into the photos (like iPhone). You may also select this option if you are planning to…

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Eclair 16mm ACL Camera Manual

Eclair 16mm ACL Camera Manual

Low profile and portability not only gives the ECLAIR ACL camera an elegant appearance, but it is a practical feature which enables the cameraman to take pictures while in a very confined space. The ACL rests low on the shoulder; in fact wherever there is headroom there is space for him to operate his camera. Examples:- seated in a moving car next to or behind the driver; in a cockpit; in a bunker; up a tree; or in any confined space where a camera is called for. The ACL is unobtrusive.

Total weight is important where there is plenty of action and mobility is the key word. The ACL with its 60m (200 ft) magazine, fully loaded, weighs 3.6 kg (8 lbs). With all its ancillaries, this camera presents no problem when climbing any structure or following any action. The ACL is truly a professional camera.

A self-blimped quiet running camera permits candid shots and unselfconscious action. The moving parts in the ACL have been kept to a minimum; it’s wedge-shaped claw slides quietly into the film perforation; it’s plane shutter and oscillating mirror reduce the whir of rotating mirror shutters; the overall noise level is better than 32 dB at 1 m (3 ft).

A crystal controlled brushless motor has been specially designed for the ACL. Incorporated in this motor are some of the features developed for spaceflight - miniaturised control, high efficiency, freedom from static etc. It is based on The Hall Effect; runs silently, draws only 0.8 A from the small rechargeable battery. No hash is added to the radio microphone signals. The speed is accurately regulated to 24 or 25 frames per second by crystal control.

Snap-on magazines, made famous throughout their range of cameras, afford the film maker the advantages of a 3 second effective re-load time and the ability to change quickly to different film stocks by pre-loading magazines. The cameraman has the choice of 60m (200 ft) core loads, standard 30m (100 ft) or 60m (200 ft) daylight loading spools.

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TUCIT – X The Ultimate Camera Interval Timer Manual

TUCIT – X The Ultimate Camera Interval Timer Manual

Inventory
1 Tucit - X comes with a plug-in infra-red lamp on a cable, a small piece of velcro, a 9 volt battery holder, a copy of this manual and 2 laminated menu summaries.
2 If your camera is to be controlled by an electrical switch you will need to acquire and attach an appropriate plug to Tucit’s blue lead.
The Name
1 TUCIT stands for The Ultimate Camera Interval Timer. Pronounce it like ‘bucket’ and the X like ‘ex’.

What Can Tucit - X Do?
1 Tucit - X is built for kite aerial photography (kap) and is also used in balloon aerial photography and various other applications.
2 Tucit provides you with 3 alternative ways to trigger your camera; infra-red ‘wireless’ controls or electrical contact switches or servos providing finger actions.
3 It provides control signals for model aeroplane servos to give you panning and tilting movements.
4 Tucit - X allows you to set virtually any interval between pictures and you can have countdown periods from 2 seconds upwards.
5 It can provide double wake-up signals for cameras which fall into sleep mode after long intervals. And, for example for film cameras, you can set a limit to the number of pictures taken each time.
6 A rig moves menu provides a number of movement options for camera rigs with either pan or pan and tilt servos. These include panning with occasional vertical lookdowns as well as three and four level panning.
7 There is a batch mode which lets you take pictures in groups - like panoramas with resting periods in between. And there’s a series mode which may help your camera to take bracketed exposures – i.e. a series of 3 pictures between every move. Alternatively it can hold down (delay) finger shutters to take burst or bracketed shots.
8 There is also a kap session menu so that you can achieve multiple objectives whilst your camera is in the air. Or just use it to stop pictures and tilt upwards for landing.

Bipolar/Monopolar Temperature Controller Model TC-202A User’s Manual

Bipolar/Monopolar Temperature Controller Model TC-202A User’s Manual

The Bipolar/Monopolar Temperature Controller (Model TC-202A) is designed to be used with several micro-incubators supplied by Harvard Apparatus Inc.These models include the Open Perfusion Micro-Incubator (Model PDMI-2), Patch Slice Micro-Incubator (Model PSMI),Leiden Static Micro-Incubator (Model LU-CB1) Leiden Closed Perfusion Micro-Incubator (Model LU-CPC-CEH) and Brain/Tissue Slice System (Model BSC-BU).

A micro-incubation system from Harvard Apparatus consists of the Temperature Controller (TC-202A),a micro-incubator (one of the above) of choice,a 35 mm plastic Petri dish or reusable cover slip dish (LU-CSD, MSC-TD or MSC-PTD) and an associated pumping system.Such a system allows complete environmental conditioning along with excellent micro-mechanical access for electrodes or micropipettes, all with optimum optical access.

A proportional temperature controller is basically a source of electric current whose magnitude is determined by comparing a desired target temperature with its current value. The TC-202A’s output is proportional to the difference in temperature between the desired and the current value. This type of system avoids the electrical noise of suddenly turning current on and off, unlike less expensive controllers. When using the TC-202A in the Biphasic mode, the current will spontaneously reverse direction when the current temperature is too high; in short,it can also cool when used with Peltier elements.(PDMI-2/PSMI)

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GE4000 User Manual

GE4000 User Manual

The GE4000 series of cameras are sensitive, 5 frames per second, 11 megapixel, Gigabit Ethernet cameras based on the Kodak KAI-11002 CCD sensor.

Supported Features
Imaging Modes
free-running, external trigger, fixed rate, software trigger
Fixed Rate Control
0.001 fps to maximum frame rate
External Trigger Delay 0 to 60 seconds in 1 microsecond increments
External Trigger Event rising edge, falling edge, any edge, level high, level low
Exposure Time
140 microseconds to 60 seconds in 1 microsecond increments
Gain
0 to 25dB
Region of Interest (ROI) independent x and y control with 1 pixel resolution***
Horizontal Binning
1 to 8 pixels
Vertical Binning
1 to full resolution of sensor***
Pixel Formats
Mono8, Mono16*, Bayer8, Bayer16
Sync Out Modes
trigger ready, trigger input, exposing, readout, imaging, strobe, GPO

The General Purpose I/O port uses a Hirose HR10A-10R-12SB connector on the camera side. The mating cable connector is Hirose HR10A-10P-12P. This connector can be purchased from Prosilica or from http://www.digikey.com.
See Addendum for more detail.
DO NOT EXCEED 5.5V ON SIGNAL INPUTS.
All inputs and outputs are galvanically isolated from the internal camera circuitry.

TRIGGER INPUT
This input signal allows the camera to be synchronized to some external event. The camera can be programmed to trigger on the rising or falling edge of this signal. The camera can also be programmed to capture an image at some programmable delay time after the trigger event.

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ST-402 Operating Manual

ST-402 Operating Manual

Congratulations and thank you for buying one of our ST-402 cooled CCD cameras. The ST-402 has the following features:
• Uses Kodak’s microlensed, blue enhanced KAF-0402ME CCD with 765 x 510 9-micron square pixels.
• 16-bit A/D converter with correlated double sampling running at 1.8 megahertz.
• Temperature regulated Thermo-Electric (TE) cooling with 25C delta for reduction in CCD dark current.
• Single board, small, compact design with internal shutter allowing exposures down to 40 milliseconds that makes taking dark frames a trivial task.
• USB 2 interface yielding up to 1.2 megapixels per second download rates but full backward compatibility with USB 1.1 computers at 400 kilopixels per second.
• Input power requirements of 10.0 – 14.5 Volts DC at 1 Amp through the new center-positive locking power jack.
• Telescope interface with four optically isolated normally open signals on the industry standard RJ-11 jack.
• T-Thread based mechanical interface that supports a variety of nosepieces and adapters.
• Optional 4-position filter wheel with parfocal Red, Green, Blue and Clear filters.
• Powerful yet intuitive CCDOps software for image acquisition and processing.

Getting Started
In addition to this truly fine Operating Manual, the ST-402 package includes the following items:
ST-402 Camera – The camera body is 4 x 5 x 2 inches with a T-Thread adapter on the front cover. 1 ¼ Inch T-Thread Nosepiece – This screws into the front of the camera for telescope work and includes a soft rubber cap for keeping out the dust when not in use. Optional 2 Inch Nosepiece and Visual Back adapters are available from SBIG. In addition a screw-in T-to-C adapter is available for use with C-Mount camera lenses or C-Mount adapters.

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Home Theater Plus URC8780 User Manual

Home Theater Plus URC8780 User Manual

The illustration below and the chart describe the features and the functions of the HOME THEATER PLUS keypad. The following keys will always have the same function, regardless of which component you are controlling. For an explanation of what each key does by component type, please use the index at the rear of the manual.

Feature Function
The SETUP key is used to access the menu and program your HOME THEATER PLUS.
The TV, VCR, CBL/SAT, DVD/LD, TUNER, , CD, AMP and AUX1 keys are used to select the home entertainment component you want to control. If your component does not respond when you press a key on the remote control, press the TV, VCR, DVD/LD, CBL/SAT, TUNER, AMP, CD, or AUX1 key to tell the remote control which component you would like to operate.
The ESC (Escape) key is used to exit the LCD Screen menu.
The LITE key is used to turn ON and OFF the HOME THREATER PLUS’s backlit keypad and LCD screen. Press the LITE key once to turn ON the back light. The HOME THREATER PLUS’s backlight will stay on for 5 seconds after the last key press and re-activates with the press of a key. To de-activate the backlight, press the LITE key again.
The POWER key controls power ON and OFF.
The VOL + (Volume Up), VOL – (Volume Down) and
MUTE keys control the volume the same as the Volume Up and Down and Mute keys on your original remote.
The CH + (Channel Up) and CH – (Channel Down) keys change channels the same as the Channel Up and Down keys on your original remote.
The MACRO key memorize up to 15 keystrokes that can be accessed in sequence at the press of a single key. These keys are not mode specific. The SHIFT key accesses advanced features that are mapped under the following keys: MENU, MUTE, PREV CH, PIP, REW, PLAY, FF, STOP, and PAUSE. The 1L ~ 4L keys are used for learning new features onto the HOME THREATER PLUS.

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HTX20 Owner’s Manual

HTX20 Owner’s Manual

The Features on this HTX20
Multi-Disc Playback & FM Tuner
The HT-X20 combines the convenience of multi-disc playback capability, including DVD-VIDEO, CD, MP3-CD, WMA-CD, DivX, CD-R/RW, and DVD R/RW, with a sophisticated FM tuner, all in a single player.
Dolby Pro Logic II
Dolby Pro Logic II is a form of multi-channel audio signal decoding technology that improves upon existing
Dolby Pro Logic.
DTS (Digital Theater Systems)
DTS is an audio compression format developed by Digital Theater Systems Inc. It delivers full-frequency 5.1 channel sound.

USB Host support
You can enjoy media files such as pictures, movies and music saved on an MP3 player, digital camera or USB memory stick by connecting the storage device to the USB port of the Home Theater
Power Saving Function
The HT-X20 will automatically shut off after 20 minutes in Stop mode.
TV Screen Saver Function
The HT-X20 automatically brightens and darkens your TV screen after 3 minutes in the stop mode.
The HT-X20 will automatically switch to the Power Saving mode after 20 minutes in the Screen Saver mode.

Customized TV Screen Display
The HT-X20 allows you to select your favorite image during JPEG or DVD playback and set it as your background wall- paper.

Optional Wireless receiver amplifier
Samsung ’s optional rear-channel wireless module does away with cables running between your DVD receiver and rear-channel speakers. Instead, the rear speakers connect to a compact wireless module that communicates with your DVD receiver.

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FinishLynx Total Race Management Macintosh Version Owner’s Manual

FinishLynx Total Race Management Macintosh Version Owner’s Manual

This manual is provided first and foremost to help you set up, install, and run FinishLynx so that it will become as familiar and easy to use as your computer. However, in no time at all you will become an expert FinishLynx operator, and we at Lynx System Developers, Inc. bet that you will be intrigued to learn what goes on “behind the screen” to make this exciting new technology work. Therefore we hope that the following pages will not only help you operate FinishLynx to its fullest capacity, making your job of producing accurate race results easier and faster than you ever thought possible; but we hope that they will also help to satisfy your curiosity about some of the concepts and theory behind digital imaging for fully automatic timing. Keep in mind that there is a lot of information in the following pages: we hope that you return to this reference manual again and again, rather than trying to absorb everything in one sitting.

A FinishLynx system always has a minimum of three pieces of equipment which are linked together: a digital camera, a FinishLynx timing unit, and a computer. FinishLynx cameras were specifically designed for this application. They scan and store images of a very important–and very narrow–piece of real-estate: the finish line. These single-pixel wide slices of image are assembled and temporarily stored by the FinishLynx precision timing unit before they are passed to the computer for analysis. FinishLynx allows you to display an image of the finish line of any type of race on your computer monitor and calculate race results in as little as 15 seconds. The picture is similar to that of a roll film camera, although instead of being printed on film, the image is digitized inside the camera and fed directly into your computer. The times of the finishers can be printed or immediately integrated with meet management software such as Track-on-a-Mac, Apple Raceberry Jam, or Meet Manager to make compiling meet results almost effortless. Pictures and results can be easily stored on your hard disk for later retrieval. Of course, FinishLynx meets all the requirements of a Fully Automatic Timer (F.A.T.) for the IAAF, NCAA, and USATF as well as many other national and international athletic organizations.

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PriorLux - PriorLab Manual W2968 Issue B

PriorLux - PriorLab Manual W2968 Issue B

The PriorLab and PriorLux upright compound microscopes are high quality instruments equipped with high resolution, chromatically corrected optics for excellent image quality. The robust construction and hard wearing materials ensure long lasting and trouble free operation. The instrument can be used with a number of accessories allowing brightfield, dark ground, phase contrast and polarising contrast observations. For documentation, both instruments are available with a trinocular head which permits mounting of a video or digital camera system.

The PriorLab / PriorLux is shipped in protective bags within a pre-formed container. Each component should be carefully unpacked and checked, cutting rather than tearing the plastic bags. The head (binocular or trinocular) should be fitted to the dovetail on top of the stand and locked in place with the head locking screw. The eyepieces then just drop into the eyepiece tubes at the front of the head, these should be pushed in as far as they will go. Remove each objective lens from its protective “pot” and screw into the free positions on the nosepiece. Move the stage and the condenser carrier to the highest position and insert the condenser from underneath with the diaphragm control facing to the front. This is locked in position with the clamping screw, which is fitted from the side.

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Movable Top Plate (MTP) User Manual

Movable Top Plate (MTP) User Manual

You are now the owner of a Scientifica Movable Top Plate (MTP). Once set up the MTP will provide you with a stable platform from which to carry out your experiments.
Remember:
To get the best performance out of your platform you must set it up correctly. Please follow the steps in this manual to ensure the platform is set up in accordance with manufacturers guidelines.
Special shipping brackets are provided for your MTP to prevent damage during shipment.
Step 1.
Remove the shipping brackets using the Hex Key provided.
Step 2.
Setting the correct length of your platform leg.
It is absolutely essential that you ensure the legs are all the same height. Any differences in leg length will reduce the smoothness of the stage motion and damage the bearings.
A digital vernier caliper has been provided to make this process easy.
It is important to ensure that the platform height is set to correct focal point of your microscope.
(This information should be supplied by your microscope Manufacturer – Olympus, Zeiss, Leica, Nikon). Once you have decided on the correct height, use the digital calipers to ensue that all four of the MTP legs are the same height. This can be checked by measuring the gap between the top of the locking ring to underside of the top of leg.

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ZenithStar 80 Instruction Manual

ZenithStar 80 Instruction Manual

This simple step-by-step instruction manual is designed to provide you with a better understanding of how to use your new telescope. It will also guide you through how to maintain the ZenithStar 80 and operate it at its utmost capabilities. Please carefully familiarize yourself with your telescope parts and its functions before operation.

During daytime usage and night time observation, depending on your range of application, you have many choices for precision eyepieces with different magnifications.

Your new ZenithStar 80 is exceptionally suitable for nebulae, clusters, large galaxies and comets: we therefore suggest you use low power, wide-angle eyepieces for best results. Viewing the moon and planets at up to 120x (power) is quite impressive too at stable seeing. You can easily locate an object in its surrounding with lower magnification, and then gradually zoom-in with higher power eyepieces for maximum close-up and vivid details.

The largest field of view is covered by 12x low power wide-angle eyepieces. Do not exceed the suggested maximum magnification of 120x as the seeing might deteriorate so that nothing is gained in terms of perceiving more and better details. To calculate the magnification of your telescope, divide the telescope focal length in mm (480) by the eyepiece focal length. For example, a 25 mm focal length eyepiece will produce 480/25 = 19x.

Be sure to operate with a stable tripod. Other options include German equatorial mounts, which are used by most amateur astronomers for precise tracking stability. Optional WO mounting rings and plates, and 2″ diagonal mirror or erecting prism are highly recommended for high-quality images. Though this telescope is not specifically designed for astrophotography it can yield very good results when used together with the necessary equipment. Please refer to our Accessories Chart on page 03 for more details on the photo equipment you need.

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JTS-Rotator SPH Manual

JTS-Rotator SPH Manual

JTS-Rotator SPH, produced by Esaypano, is designed for professional shooting of high quality image, including rotator and bracket. JTS-Rotator allows photographer to take sequential constant-angle shots around a single axis with the nodal point of camera and lens in line with the center of panoramic rotation. JTS-Rotator has several advantages in taking pictures:
Supports top and bottom images shooting;
Supports adjusting vertically and horizontally, fore-and-aft adjusting as well; Easy to carry about, with total weight of less than 1.5kg; Wear well again abrasion, made of alloyed material together with strong screws and accurate calibration; Not necessary to repeat calibration setup after you have made correct alignment of optical axis and nodal point

Structure of Rotator
Three jamming screws allow photographer to fix and rotate the rotator more easily with one for locking completely and other two for horizontal every 45 and 60 degree rotating respectively. A slight “click” will help photographer to know how many degree you have rotated without the need to look at the calibration while taking photos from different angles horizontally.

For example, if you don’t need to shoot image from different angles horizontally, please fix the screw “LOCK” only with other two loosening; if you want to get full circular or full frame image, you may need to tighten 60-degree jamming screw and loose the other two, one “click” saying 60 degree while two for 120 degree and three 180 degree; if you want to shoot drum image, 45-degree jamming screw will help you in the same way as 60-degree jamming screw.

The screw on the top of the rotator is used to fix the bracket, which is an indispensable part of JTS-Rotator SPH, and which is a critical part in shooting image successfully.

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Pixagent ITP Version 2.0 User Manual

Pixagent ITP Version 2.0 User Manual

Thank you for downloading ITP version 2.0! ITP is a powerful workflow solution for digital photographers and provides a wide variety of features to help you to get your work done faster. In addition to this functionality, ITP 2.0 is also much easier to set up than any product before it - allowing users of all levels to be up and running in no time. This manual provides detailed instructions on the administration and use of this extensive package, for both Standard and Professional editions. Note that this document is designed as a reference manual, if you are looking for step-by-step instructions you should look at the accompanying setup guides available on our website.

This version is being supplied in two separate editions - standard and professional. The standard edition is provided as freeware, and may be used without payment - it covers the basic functionality needed to get wireless transmission working. The professional version is a commercial product, and may only be used by individuals who have purchased a licence from Pixagent. It offers a host of powerful functions such as memory card synchronization, full-screen live image review, slideshows and more - if you would like to try these features, there is a 30-day free demo period available on download. Please read on for more details!

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DuneCam Users Manual

DuneCam Users Manual

The DuneCam™ system allows remote control and monitoring of a camera system. It is designed for use in aerial photography applications such as Kite Aerial Photography, Pole Aerial Photography, or Balloon Aerial Photography, but the system can be used in other remote camera applications as well.
The system consists of an aerial controller and a ground controller.

The aerial controller is a small circuit board that performs the following functions:
• Control of a servo motor for pan (horizontal) movement. The pan servo can be either a standard R/C aircraft servo or one modified for continuous rotation.
• Control of a servo motor for tilt (vertical) movement
• Control of a camera’s shutter by one of several mechanisms:
o A shutter servo motor that presses down on the shutter button
o IR (infrared) control for cameras controllable by an IR remote
o Hard-wired shutter switch connection
o CHDK “remote” activation for Canon cameras
• Highly reliable 2-way communications with the ground controller via a 2.4 GHz spread spectrum radio
• Video capture from a composite video signal
• Monitoring of the rig battery voltage
• Highly efficient power supply functions to run all the aerial electronics
• Positive confirmation of shutter activation

The ground controller is a handheld device with the following features:
• Sunlight readable color LCD
• A slider control for adjusting tilt
• A knob control for adjusting pan
• Buttons to control shutter, video and other functions
• A flash memory card to configure the operation of the ground controller and the aerial controller
• Ability to change between up to 10 user-programmable system configurations
• Flexible scripting feature for automated sequences of actions
• Built-in rechargeable battery

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CamLynx-Digital Capture and Basic Service Production Production

CamLynx-Digital Capture and Basic Service Production Production

Using CamLynx is simple and easy. It is can be used tethered to your camera at a photo shoot or untethered after the shoot. Using CamLynx tethered allows for visual verification of the image and the data at point of capture. A tethered shoot also allows you to produce simple services on site. CamLynx is used untethered is for smaller jobs or when the location is prohibitive to bringing a computers, such as sports shoots. Setting up a job in CamLynx:
Before starting a new job, it is important to prepare CamLynx for the shoot.
1. Add Data:
Select Import Data from the Data Menu and use the Import Wizard to bring in data from TXT, CSV, MDB or XLS files. If you are using SPS to prepare files, use the Load Data option on the Data menu.

Import Wizard Step 1 of 4: When Importing Text, choose Header = True if your file has a field description header. Start line is where you want to start importing the data from; this must include the header if it exists. Select from Comma Delimited, Tab Delimited, or Custom Delimited. Click “Next”. When selecting a MDB or XLS file, enter the password for that file. If there was no password set on the file, use “admin”. Click “Next”.
Import Wizard Step 2 of 4: If a MDB or XLS file is selected, a list of the tables in your data is displayed. Choose the table that includes the records that you want to import. Click “Next”.
Import Wizard Step 3 of 4: Map your fields to the fields that exist in CamLynx. The Import will automatically check for field matches in CamLynx if your file has a description header. Click “Next”.
Import Wizard Step 4 of 4: Choose your fields to compare for Merging data. If you want to ADD data, un-check ALL fields. Click “Finish”.

If you are importing updated or additional data to an existing database, use the 2 “Do not merge” checkboxes to tell CamLynx how to handle duplicate data.

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ExpoCap Instructions Custom White Balance Aid

ExpoCap Instructions Custom White Balance Aid

Before using your new ExpoCap Custom White Balance Aid, please refer to your camera manual for specific instructions on how to set a custom white balance.

IMPORTANT: Do not point your camera directly at the sun without the ExpoCap installed. Direct sunlight may damage or destroy your camera’s image sensor.

Custom White Balance (WB)
Setting a custom white balance on your digital camera will help you get better color under many difficult lighting conditions. Using the ExpoCap to help set the custom white balance is simply the quickest and easiest way to help your camera capture richer, more beautiful colors.

Installation
Squeeze the two buttons on the exterior of the filter ring and insert the ExpoCap into the threaded recess in front of your camera lens. To remove the ExpoCap, simply reverse this action.

Stacking ExpoCap With Other Filters
The ExpoCap can be installed and used as intended over other camera filters, such as Skylight or Polarizing filters. Note that any color characteristics introduced by filters stacked with the ExpoCap during the custom white balance procedure will be neutralized in the process. If color correction from a filter is desired, then the custom white balance must be taken without the desired filter in place.

Proper Exposure
It is essential to obtain a proper exposure while setting a custom WB. Failure to do so may result in the inability to set a correct balance. The most convenient way to obtain a proper exposure through the ExpoCap is to use an automatic exposure (AE) setting such as the “P” “S” or “A” modes.

How to Set a Custom WB Using ExpoCap
Install the ExpoCap on the end of the lens. Set your camera to an AE mode, set your focus to manual (your camera may not respond in auto focus with the disc installed), then press the shutter release button. Select or save this setting or the resulting image as the reference for your custom white balance. You must set a different custom white balance for each change in lighting.

Where to Aim the Camera
The best results are obtained by standing near, or in similar lighting as your subject and pointing the camera back towards the position from which you will take the picture. In other words, the same color of light falling on your subject must also strike the front surface of the ExpoDisc. See the following examples for tips in some common lighting conditions.
Artificial Light
1. Single Light Source. Aim the camera towards the light source.
2. Dual Light Source. Aim the camera midway between the lights

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Multi-Sensor Core Logger Manual

Multi-Sensor Core Logger Manual

This introduction presents an overview of the capabilities and features of the Multi-Sensor Core Logger (MSCL). Itdescribes the major features of the logging systems and outlines variations that occur between different generations of logging systems. The organisation and use of this manual are described, notational conventions safety symbols and abbreviations are explained.

The Multi-Sensor Core Logger (MSCL)
The Geotek Multi-Sensor Core logger has been built for a range of users since 1989. During that time the logging system has inevitably evolved with significant improvements being made to the simplicity of the mechanical arrangements, the effectiveness of the sensors and in particular with the sophistication of the software. Consequently there are a number of slightly different systems in use. Despite this natural evolution Geotek has been conscious of the need to update older systems so that important new features can be incorporated. This is particularly true with the software, which has been designed to function on all systems with only minor modifications to the electronics and hardware. If you find features described in this manual that do not seem to apply to your system then contact Geotek directly for an assessment of the upgrade potential.

Types of Logging Systems
Single Section - Whole Cores - Core Boat
Early versions of the logger moved the core sections through the sensor systems using a core boat in which each whole core section was placed. Each core section was logged individually. Data files were subsequently manually concatenated by the user within a spreadsheet.

Single Section - Whole Cores - Core Pusher - Long Belt
Later versions of the logger did not have a core boat. They moved individual whole core sections through the sensor systems by using a core pusher to push individual core sections (lying on plastic rails) through the system. This was achieved using a long belt that went around the complete length of the track, through the sensor systems and was attached to the core pusher.

Multiple Sections - Whole Cores - Core Pusher - Short Belt
Recent versions of the logger have maintained the core pusher principle but have a short belt which allows the pusher only to move along the right hand section. Cores are passed through the complete sensor array by butting adjacent cores together. In this way a continuous core logging process is achieved with continuous data sets for a complete core.

Multiple Sections - Split Cores - Core Pusher - Short Belt or Ball-screw
The most versatile logging system is now the split core logging system that is floor mounted and measures p-wave Velocity and Gamma Density either horizontally through whole cores or vertically through whole or split cores. It features a moving vertical slide onto which is mounted the upper p-wave transducer (either the older type that required water coupling or the new Acoustic Rolling Contact (ARC) type). This automated vertical slide enables the measurements to be performed on horizontally split cores as well as whole rounds. With this system there is a large degree of flexibility that enables other sensor systems to be attached.

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ADB Potenza Remote Instruction Manual

ADB Potenza Remote Instruction Manual

Programming Remote Control
Your remote control can handle several devices. However, first you have to set up your remote control for your equipment. You can do this in one of the following ways:
Brand Setup
First, find the manufacturer of your equipment on the Brand Codes list. If the manufacturer’s brand is not listed, go to Automatic
Search below. To set up your remote control follow these steps:
1. Turn the device on.
2. Press TV / AUD / DVD / AUX / STB depending on what mode you want to handle and then hold RCU SETUP until the device key blinks twice.
3. Enter one of the codes from the list. If the code was correct the mode key blinks twice. If not, the key emits one long blink. Then, you will have to repeat steps 2 and 3 until entering the correct code.
4. Press POWER. If the device has turned off, you have chosen the right code. If none of the codes work, try Automatic Search.

Automatic Search
Automatic Search should only be undertaken if none of the brand codes works or your brand name is not listed. Use the Automatic Search option.
1. Switch on your device. Then press appropriate mode key, for example TV if you want to set up a TV.
2. Press and hold RCU SETUP until the mode key blinks twice.
3. Press 9 9 1. The mode key blinks twice.
4. Aim the remote at the device and press POWER.
5. Press CH + and CH- repeatedly until the device is switched off.
6. Press POWER to turn the TV on.
7. Next, press RCU SETUP to store the code for your device. The mode key blinks twice. Your remote control is now programmed to operate your TV set.
8. To search codes for other devices repeat steps 1 through 7, but substitute the TV key with the appropriate one for the mode you are searching for.

Finding Your Code
If you want to know what code operates your device, you can obtain it with the Device Code option. To find out the code, follow these instructions:
1. Switch on your device. Then press appropriate mode key, for example TV if you want to set up a TV.
2. Press and hold the RCU SETUP until the mode key blinks twice.
3. Press 9 9 0. The mode key blinks twice.
4. For the first digit of your code, press 1 and count the number of times the key blinks (e.g. 2 blinks = 2). If the light does not blink, the digit is 0. For the second digit press 2 and count the number of blinks. Do the same for the remaining digits.
5. To check for other device codes, repeat the above steps, but substitute the TV key with the appropriate one for the device you are checking.

Using Learning
Your remote control includes a learning feature. It means you can transfer some unique functions from the remote control of other device to this remote control.
1. Press RCU SETUP until the last selected mode key blinks twice. Then press 9 7 5.
2. Press the mode key. For example to transfer a function from DVD remote control press DVD.
3. Press the key on which the function will be stored.
4. Place your remote control and the device remote control (e.g. your DVD remote control) head-to-head, about 5 centimeters / 2 inches apart.
5. On the device remote, press and hold the key to be learned. The target remote control will blink rapidly and turn off. Keep holding the key on the device remote control until the device key on the target remote blinks twice.
6. If the learning failed, the device key emits one long blink. You will have to repeat step 5.

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KR-V9090 Instruction Manual

KR-V9090 Instruction Manual

Compared to standard remote controls, the remote control supplied with this receiver has several operation modes. These modes enable the remote control to control other audio/video components. In order to effectively use the remote control it is important to read the operating instructions and obtain a proper understanding of the remote control and how to switch its operation modes (etc.). Using the remote control without completely understanding its design and how to switch the operation modes may result in incorrect operations.

True home theater sound
This receiver incorporates a wide variety of surround modes to bring you maximum enjoyment from your video software. Select a surround mode according to your equipment or the software you are going to play and enjoy!
Dolby Pro Logic & Dolby 3 Stereo
This surround system reproduces theater-like surround sound from video software marked

The PRO LOGIC mode uses the built-in directivity enhancer circuit to control the Left, Center, Right and Surround channel audio signals and reproduce a real sense of sound motion . The 3 STEREO mode uses the directivity enhancer circuit to provide proper acoustic positioning and a real sense of sound motion even when only the front and center speakers are used.

New DSP surround modes
The DSP (Digital Signal Processor) used for this receiver incorporates a variety of high quality adjustable sound fields, like “ARENA”, “JAZZ CLUB” and “STADIUM”, to add the “presence” associated with an arena, jazz club or stadium to the original signal. It is compatible with almost any kind of program source.

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Multiple Wavelength Multiviewer Operation Manual

Multiple Wavelength Multiviewer Operation Manual

The Multiviewer is a complete system for multispectral imaging. It allows two images to be collected simultaneously using Princeton Instruments CCD or ICCD cameras. It features high throughput dichroic optics and UV wavelength operation as an option. Princeton Instruments multiple wavelength Multiviewer system offers the following features:
• One image projected in dual wavelengths simultaneously on a single CCD or ICCD
• No filter wheel delays and no shot-to-shot variation
• No parallax. All images are taken from the same perspective
• UV operation to 200 nm (optional)
• High throughput dichroic optics
• Low stray light

Performance Considerations
The Multiviewer design allows an image to be acquired at two different wavelengths simultaneously. With a gated intensified camera, both images can be acquired in as little as 5 nanoseconds. This means that even transient events can now be recorded at multiple wavelengths. This eliminates problems of shot-to-shot variability that occur when recording a transient event at multiple wavelengths by recording successive occurrences. With a Multiviewer, the complete multispectral image is acquired in a single shot.

Even for slowly moving subjects, simultaneous imaging provides an advantage. While the morphology of a subject may not change very quickly, the intensity at an individual pixel can change abruptly due to slow movement of a sharp edge across the pixel. Ratio images created from successive frames taken at different wavelengths often contain artifacts due to this effect. Simultaneous dual-wavelength imaging eliminates this ambiguity.

Whether a system is designed for operation on transient or slowly changing subjects, the elimination of moving filter systems improves overall system reliability. Since the Multiviewer has no moving parts, the reliability is much higher. The passive design also requires no computer control and has no power requirements.

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RED ONE Digital Cinema Camera Operation Guide

RED ONE Digital Cinema Camera Operation Guide

The RED ONE camera ships as standard with a PL mount. To protect against dust and other contaminants entering the optical path, ensure that the lens cap is used at all times when a lens is not mounted on the camera. Additional mounts and adaptors are available for use with non-PL mount lenses.

A wide range of options and accessories are available to customize your RED ONE camera. The Basic Production Pack includes a top bracket and top handle, a base plate that accepts 19mm rods; two19mm rods, an adjustable grip handle, a combination shoulder pad/wedge plate adaptor, V mount battery plate, and a digital magazine cradle.

RED ONE camera body with Basic Production Package (lens and tripod not included) The distance from the digital magazine cradle to the camera back may be adjusted to counter balance the weight of the lens. In addition the shoulder pad/wedge plate adaptor can slide against the base plate and be locked in position. The adaptor includes wedge plate mounting holes, so there is no need to remove this component between on-the shoulder and tripod applications. Additional rods, brackets and grips may be added to the Basic Production Pack to configure the camera to a wide variety of studio and field production applications.

The RED ONE Power Pack includes two 140Wh batteries, RED CHARGER and an auxiliary power cable. When connected to a 120V/240V AC power source, the charger sequentially fast charges two batteries, or supplies the camera with 100W @13.8V regulated DC power.

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DVR-6100/DVR-6100K DVD Receiver Instruction Manual

DVR-6100/DVR-6100K DVD Receiver Instruction Manual

This instruction manual is for some models. Model availability and features (functions) may differ depending on the country and sales area.
Channel Space Setting
The space between radio channels has been set to the one that prevails in the area to which the system is shipped. However, if the current channel space setting does not match the setting in the area where the system is to be used, for instance when you move from area 1 or area 2 shown in the following table or vice versa, proper reception of AM/FM broadcasts cannot be expected. In this case, change the channel space setting in accordance with your area by referring to the following table.

Please read all of the safety and operating instructions before operating this appliance. Adhere to all warnings on the appliance and in the instruction manual. Follow all the safety and operating instructions. These safety and operating instructions should be retained for future reference.
1. Power sources – The appliance should be connected to a power supply only of the type described in the instruction manual or as marked on the appliance. If you are not sure of the type of power supply to your home, consult your appliance dealer or local power company. For appliances intended to operate from battery power, or other sources, refer to the instruction manual.
2. Power-cord protection – Power-supply cords should be routed so that they are not likely to be walked on or pinched by items placed upon or against them, pay particular attention to cords at plugs, convenience receptacles, and the point where they exit from the appliance.
3. CAUTION – Polarization – This appliance may be equipped with a polarized alternating-current line plug (a plug having one blade wider than the other). This plug will fit into the power outlet only one way. This is a safety feature. If you are unable to insert the plug fully into the outlet, try reversing the plug. If the plug should still fail to fit, contact your electrician to replace your obsolete outlet. Do not defeat the safety purpose of the polarized plug.
4. Ventilation – Slots and openings in the cabinet are provided for ventilation and to ensure reliable operation of the appliance and to protect it from overheating, and these openings must not be blocked or covered. The appliance should be situated so that its location or position does not interfere with its proper ventilation.
To maintain good ventilation, do not put records or a table-cloth on the appliance. Place the appliance at least 10 cm away from the walls.
Do not use the appliance on a bed, sofa, rug or similar surface that may block the ventilation openings. This appliance should not be placed in a built-in installation such as a bookcase or rack unless proper ventilation is provided or the manufacturer’s instructions have been adhered to.

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Red One Camera: Operation Guide Firmware Build 17, Version 3.4.1

Red One Camera: Operation Guide Firmware Build 17, Version 3.4.1

Camera Assembly
Connect the power cable from the Battery Plate, RED-CHARGER or AC Power Adaptor to the DC input on the rear of the camera body.

The RED-LCD and RED–EVF viewfinder may be mounted to the camera body using a short or extended length RED ARM. Attach the RED ARM to the camera body using the shorter threaded screw. There are attachment points on the camera body and on the RED RAIL TOP BRACKET. Then attach the end of the arm with the circular locking ring to the RED-LCD or RED-EVF. Finally connect the cable from the camera body to the RED-LCD or RED-EVF. Carefully align the red dots on the socket and plug, and push firmly to establish contact.

Attaching the RED-LCD or RED-EVF
The RED-LCD and RED-EVF cables are interchangeable; but the outputs are not. The RED-EVF should be connected to the upper output; a RED-LCD should be connected to the lower output. If using RED-DRIVE, place it into the RED-CRADLE and secure it with the four thumbscrews.

Then connect the RED e-SATA cable to the RED-DRIVE™ and to the e-SATA input on the rear of the camera body. (In normal operation use the right angle connector to mate to the RED-DRIVE, and the straight connector to mate to the camera)

Remove the lens cap and mount the PL lens you wish to use. The lens will have four metal tabs with cutouts for the registration pin in the mount. If using S4/i compatible lenses the data pins should be oriented to 12 o’clock when mounting the lens in order to establish communication. Attach matte box and motors, and any auxiliary power cables required to power these items.

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HP DeskJet 720C Series Printer User’s Guide

HP DeskJet 720C Series Printer User’s Guide

Although your printer can do some pretty fancy stuff, most of the time you’ll be printing words and pictures on paper.The process is simple: First choose the paper you want to use; load the paper in your printer; choose your print settings from the printer software; and then print from the computer software program you’re using. If you want to know more about the printing basics, read on. And don’t miss the tips on each page.

GET THE RIGHT PAPER
Use HP paper for vivid color and the sharpest text. Here are some of your choices:
• HP Premium Inkjet Paper. Its matte finish captures brighter colors and sharper images for more brilliant documents and presentations.
• HP Deluxe Photo Paper uses Kodak Image Enhance- ments technology to give you excellent skintones and true-to-life landscape colors.
• HP Bright White Inkjet Paper produces high-contrast colors and sharp text. The brightest and whitest of any inkjet paper, it gives you the ability to print on both sides without show-through.
• HP Premium Photo Paper produces spectacular photos that look and feel like traditional photos.

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Seitz VR Drive Panorama Calculator 6.6 Operation Manual

Seitz VR Drive Panorama Calculator 6.6 Operation Manual

The information in this operator’s manual is related to the following two types of panorama calculators: “MultiRow” and “Sperical Panorama”. The only limitations are the format of a single picture and it should be a rectangle (no fisheye lenses) and for spherical panoramas the single photographs should be taken in portrait format.

Nowadays digital photo technique allows the creation of panorama photographs with a previously unknown resolution. I think the first photographer breaking the Gigabyte boundary was Max Lion with his MultiRow panorama from the Bryce Canyon taken in 2003. When taking into account a professional SRL camera, e.g. the Canon EOS 1Ds Mark III with its 21 Mega pixels, the MultiRow technique opens up new possibilities.

A panorama photograph whether it is a MultiRow or a Spherical Panorama must be taken on a fixed position not to be confused with mosaic e.g. Satellite photographs which are taken from different positions.
Also Spherical Panoramas are delighting the professional promotion sector (real estate properties and tourism market) and are also very popular in the semi professional community.
As you assume, to take MultiRow and Spherical panoramas, it will require a minimal knowledge to calculate the relevant parameters for a specific equipment combination as:
- Sensor size (depending on the camera model used)
- Focal length of the lens used
- Horizontal/vertical step size between two pictures
- Horizontal/vertical overlap between two pictures
- Numbers of columns and rows
- Camera format (portrait / landscape)
To get good results, of course appropriate equipment, not necessarily expensive, is a requirement.
The suggested panorama calculator should support photographers in the preparation phase before taking the pictures. In chapter 2 and 3 the functionality and the use of the panorama calculator will be explained in more detail.

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Nikon Digital Camera Coolpix 900 User’s Guide

Nikon Digital Camera Coolpix 900 User’s Guide

The COOLPIX 900 is a full-featured digital camera with optical and digital zoom and a built-in flash. In automatic mode the camera’s programmed autofocus, autoexposure, auto white-balance, and matrix metering allow for “point-and-shoot” photography that produces excellent results in a variety conditions. The menu-driven manual mode offers a choice of metering methods, exposure compensation, and white balance programs in addition to a variety of digital effects. Photographs taken in either mode can be played back instantly on the camera’s color LCD monitor, or the camera can be connected to a television for demonstration. The COOLPIX 900 can also be attached to a computer, where your images and recordings can be viewed using the Nikon View 900 software provided with your camera, or edited for use in other applications.

The manuals for your COOLPIX 900 and the Nikon View 900 browser software are divided into three parts. The User’s Guide (this manual) offers a brief introduction to using your camera and describes how to install Nikon View 900. Separate reference guides for camera and software (both Macintosh and Windows versions) are provided on CD-ROM. These reference guides can be viewed on-line or printed when you need more detailed information on using the camera and software. In addition, a one-page Fast Track Guide is provided for experienced users who want to get started with a minimum of instruction. Where appropriate, this guide will refer readers to the reference manuals or Fast Track Guide for more information. References to manuals on CD are indicated by a icon, references to the Fast Track Guide by a icon.

The chapters that follow guide you, step-by-step, through the basics of using your camera and installing the browser software for your platform. The next chapter, “Parts and Accessories,” introduces you to the parts of the camera. This is followed by “First Steps,” which outlines the steps you will take after you remove the camera from the box, from inserting the batteries to taking your first photographs and playing them back. Information on installing the browser software provided with your camera may be found in “Nikon View 900,” which also describes how to install the Adobe Acrobat Reader software you will need to view the manuals on CD-ROM. Please read all instructions carefully to ensure that you get the most from your camera.
Note: The illustrations in this manual are composites. Photographs taken with the COOLPIX 900 may differ from those shown here.
Note: The illustrations in this manual show the color LCD monitor used in the NTSC-compatible model of the COOLPIX 900. Owing to differences in video standards, the PAL-compatible model will display items in positions slightly different from those shown here.

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NTE 2 Detector/Camera Manual

NTE 2 Detector/Camera Manual

This manual provides the user with all the information needed to install a NTE 2 Detector/Camera and place it in operation. Topics covered include a detailed description of the NTE 2 Detector/Camera, installation, microscopy applications, cleaning, specifications and more.
Chapter 1, General Information provides an overview of the NTE 2 Detector/Camera.
Chapter 2, Detector/Camera Setup provides detailed directions connecting the detector, installing it for spectroscopy or imaging, and over-exposure protection considerations.
Chapter 3, Cooling the Detector /Camera discusses how to establish and maintain temperature control with a ST-133A Controller. Also provides information on the effects of long-term vacuum degradation on cooling capability and temperature control.
Chapter 4, Focusing discusses how to focus the detector in both spectroscopy and imaging applications.
Chapter 5, Microscopy Applications discusses how to mount the NTE 2 Detector/Camera to a microscope. Includes discussion of various adapters, focusing considerations and sensitivity to damage from EMF spikes generated by Xenon or Hg arc lamps.
Chapter 6, Operation discusses a number of topics, including effects of high humidity, UV effects on the scintillator coating, baseline signal and noise.
Chapter 7, Cleaning contains directions for cleaning the detector’s housing and optics.
Appendix A, Specifications includes detector specifications.
Appendix B, Outline Drawings includes outline drawings of Spectrograph mount, C-mount, F-mount, and fiber-optic coupled detectors.

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PocketWizard MultiMAX Owner’s Manual

PocketWizard MultiMAX Owner’s Manual

The PocketWizard MultiMAX is a microprocessor-based radio slave system that uses advanced digital signaling to increase triggering range, reliability and reject radio noise from other sources. Since is utilizes Transceiver technology, it is both a transmitter and a receiver all in one. It is the most innovative and advanced wireless solution in the photographic industry.

As a stand-alone unit, the MultiMAX offers precision special effects functions not available in any wireless triggering device. It incorporates integrated Trigger Time Control software, True Trigger Confirmation and Selective Quad Triggering, all of which offer solutions to photographic challenges that hinder today’s photographer’s creativity. Unparalleled in features and performance, the PocketWizard MultiMAX is more than just a radio slave.

The MultiMAX displays remaining battery life with a 3 segment battery icon in the upper left corner of the LCD:
3 segments displayed = batteries are fresh/new
2 segments displayed = batteries are good
1 segment displayed = replace batteries soon
0 segments displayed = install fresh/new batteries immediately

With one set of standard Alkaline batteries the MultiMAX will operate for approximately 60 hours. When using Intervalometer or Multipop modes exclusively, battery life can be 200 – 300 hours. This time may vary depending on temperature, battery type, and the quality of batteries used. Extensive use of back light, speaker, or extended trigger contact times will consume the batteries at a faster rate.

The MultiMAX continually regulates the battery power which gives excellent performance throughout the life of the batteries. The unit will continue to function normally until the batteries are nearly exhausted.

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MobileTSM User Guide

MobileTSM User Guide

Getting Ready to Use MobileTSM
Bluetooth Setting
For the serial Bluetooth device (Promi), it needs to be charge so that it has the sufficient power to do your survey measurement. It is provide with its own power charger which you just need to plug in to the Bluetooth device. Remember also to check whether the communication between two Bluetooth is still connect or disconnect by navigate to My Bluetooth Places icon and search for the generic serial that you are using. The generic serial will tell you whether is disconnect or connected

Pairing a New Bluetooth Device
Before you start using a Bluetooth device, you need to pair up your Bluetooth devices; the USB Bluetooth (to be attached to the Tablet PC) between the serial Bluetooth attachment (to be attached to the total station). Pairing the devices allow you to avoid entering access information each time a connection is attempted. Paired devices share a unique link key, which they exchange each time they connect.
1. To start initiating your Bluetooth pairing, click on the
Start > Bluetooth Manager shown at above Note: Remember to plug in your USB Bluetooth into the Tablet PC and make sure the other Bluetooth device is ON before doing any pairing. The Bluetooth icon in your system tray will be in white colour once plugged in.
2. Click on the New menu > Connect!. A Connection Wizard screen will show up.
3. Click the Explore a Bluetooth device then click Next to continue the process.
4. A Bluetooth Connection Wizard: Explore a Bluetooth device screen will come out as follow. To select a device, tap inside the device selection box above.
5. After the list inside Bluetooth Browser screen appears as following, choose a device. Tap Next to continue or Back to return to the previous screen. To exit without completing the connection, tap Cancel.

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Wi-Pics Operations Manual

Wi-Pics Operations Manual

Wi-Pics TM was designed with the philosophy that photographers should be free to devote their time and attention to capturing great images, without being disk-jockeys or couriers for flash memory cards. Wi-Pics TM replaces a photographer’s CompactFlash™ storage card during digital image capture.

After Wi-Pics TM has been powered-on, it emulates the behavior of a typical CompactFlash™ memory card. Image files recorded by the camera are stored on an internal hard disk drive, or on supplemental CompactFlash™ storage cards inserted into the Wi-Pics TM unit by the user. When the software in Wi-Pics TM detects the recording of an image by the camera, the image can be transmitted to a remote workstation or server via the unit’s wireless or wired network interfaces.

Wi-Pics™ is a patent-pending network appliance designed to allow any Type II CompactFlash TM compatible digital camera to transmit images via wireless and wired networks. Use of Wi-Pics™ requires no modification of camera hardware or firmware, and does not impact camera buffer performance or battery life. What makes Wi-Pics unique from other wireless options is its data association.

Data association is the ability to rename files with critical search data at the moment of capture and to place that data into the EXIF header of a JPEG file. Wi-Pics™ solves the problem of moving images from Point A to Point B, while adding the capability to easily search and retrieve images directly after they are captured.

Wi-Pics™ provides photographers with connectivity to transfer their images instantly and automatically to a remote server or workstation, and simultaneously provides redundant backup image storage.

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Copan for Windows User Manual

Copan for Windows User Manual

Copan is a powerful tool for surveyors who do field and office calculations with coordinates and survey measurements. To use Copan, you must be familiar with basic Windows operations and with basic geomatics (or surveying engineering) concepts.

This Manual
Boldface words are usually menu items or dialog buttons or fields.
Monospace words usually mean folder or file names or data values.
Where it is not spelled out, please read A | B as “Select item B from the pull-down menu A”. For example, to do basic COGO, after you’ve opened a coordinates file, the instruction Calculation | COGO… means “Choose the Calculation menu then the COGO… item”.

The § symbol before capitalized text (e.g., § Map Traverses) means the text is the name of another web page or printed chapter.
If you’re reading this on-line, you can go to the table of contents, the previous page, or the next page via [contents] [previous] [next], etc, “buttons” at the top or bottom of each page. (If you have the Opera web browser, you can choose the same items on the its navigation bar.)

To print any of this manual’s web pages or chapters, you have two options: Go to the desired web page and print it! It is already printer-friendly. (Headings can, however, get orphaned — except in Opera.)
Open the PDF version of the manual, User Manual.pdf (you will need an Adobe reader), and print the whole thing or just your desired pages. You can jump to specific chapters via the Bookmarks tab.

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Eclair ACL Manual

Eclair ACL Manual

THE CAMERA HEAD (Code MIPEX)
The camera head (Fig A) in special aluminum alloy supports the lens mounts (1) in stainless steel, the interchangeable gelatine-holder (2), the reflex viewfinder (3), the motor (6) with its control for electronics (7), the electronic base (8) incorporating the sliding on/off switch (32), the lateral support (75) of the hand-grip (36) with its micro-switch (76), the magazine lock release lever (16) with its safery catch (17) and the removable hand-grip (36). On the rear (Fig B): the mechanism plate (9) on which are mounted film gate (10), the fixed guide bar (11) and its side pressure bar (12), the magazine drive shaft (18), the 4 pin power supply socket (19) for connection with the battery, the clapper switch (20) and the potentiometer (34) of the exposure indicator.
Inside: the claw mechanism (13), the oscillating mirror (14), the plane shutter (15) and the exposure indicator unit. The snap-on 60m, or 120m magazine are attached onto the camera head as well as the fixed focal or zoom lenses. NOTA. The above camera head can be sup- plied without Exposure indicator unit; its commercial code is MITAN.

THE MULTIDUTY MOTOR (MIVAR)
This brushiess motor (6) has a very high efficiency (from 0.8 to 1.2 amp. consumption at 12 volts to drive the camera at20°C (68° F) and has permitted a weight reduction not only in the camera but also in the battery (37) - page 12 - which weighs only 640 grammes enabling one hour of filming between recharges, i.e. eight to ten 60 m magazines.

The incorporated electronics (7) control the sync. speed by crystal ; changing from 24 to 25 f.p.s. or vice-versa is made by shifting switch (38) so that the white spot mark is adjacent to the desired speed. Others speeds : 8.12.50 and 75 are obtained by setting the engraved button 35 accordingly. The MIVAR will stop the camera automatically in viewing position, i.e. the mirror being in the aperture axis allows the cameraman to frame and focus without loss of time.

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Nikon 500 Series Total Station Instructions

Nikon 500 Series Total Station Instructions

This document contains instructions to download or upload field data from or to the Nikon 500 series total stations. To download or upload, you need coordinating instructions for Terramodel and the data collector. For information not included in these instructions, see the Terramodel User’s Guide Addendum, the Terramodel online help or the documentation for the Nikon that you are using.

To download or upload Nikon 500 series data to/from Terramodel, you need the following items to begin:
• Terramodel 9.8 software (called Terramodel below) with the Nikon scripts available on the Download/Import and
Export/Upload options lists (accessible from the File menu).
• Nikon 500 series total station
• For downloading, a job must exist on the total station with raw or coordinate data.
Note: If you want to download raw data from the Nikon, do not use the specialty Nikon .lgr files. The Nikon 500 series allows you to export data in either of two Sokkia/SDR formats. There are two SDR formats, SDR33 and SDR2X. The SDR2X format supports 4-byte numeric point identifiers; for this data use the Sokkia 2x.lgr. The SDR33 format supports 14-byte alphanumeric point identifiers; for this data use the Sokkia 33.lgr.
• The Import and Export scripts mentioned in these instructions are editable. If the script on your system has been edited, some of the Terramodel dialog boxes mentioned in the instructions may not appear. Don’t worry if this happens; just skip to the next step and continue the process.

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Nikon Optiphot Instructions

Nikon Optiphot Instructions

The ImageCORE’s Nikon Optiphot-2 is set up as a digital fluorescence acquisition microscope. The Eclipse is coupled to a 12-bit Roper Coolsnap CF digital capture camera. This system should be used to observe and record images prior to use of other, higher resolution, ImageCORE resources.

Power Up Procedure
• For your protection as well as the equipment, please dawn gloves provided to you by the ImageCORE at no charge
• Carefully remove the protective dust cover from the microscope ensuring that the back of the cover does not catch or move the mercury supply adjustments
• The Nikon Optiphot-2 has 2 power supplies. The order in which these supplies are turned on is important. Begin by turning on the main power supply (1.1). The slider (1.2) located next to the power switch is used for white light source intensity adjustment.
• Should you desire fluorescence excitation, you will need to turn on the mercury light source. It is imperative that the mercury source is used for duration of at least 15minutes. Likewise, it is also imperative that the mercury source not be switched on after prior use for at least 30 minutes.
• In order to illuminate the mercury light source, turn on the power supply (1.3). Next, in order to ignite the bulb, press and hold the “ignition” button (1.4). Once the bulb is properly ignited, the “ready” light will illuminate.

Image Acquisition
• Select the appropriate excitation wavelength using the filter cube selection slider (2.1). Further compose your image using the focus and translation stage. When you are not actively observing or imaging your sample, it is important to engage the shutter (2.2) and block the excitation light to your sample. When the shutter is depressed, the light path is undisturbed and excitation can occur. Subsequently, when the shutter is pulled out, the light path is disturbed.
• In order to set the scope for digital capture, it is necessary to manipulate the “eyepiece/camera” selector (2.3). When depressed, the eyepieces are in the light path and when pulled out, the digital camera is in the light path.
• Having configured the microscope properly as discussed herein, it is now time to configure the computer system for digital image capture. Please refer to the separate instruction document entitled “Computer Login/Image Acquisition Instructions.”

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Nikon Eclipse E800 Instructions

Nikon Eclipse E800 Instructions

the ImageCORE’s Nikon Eclipse E-800 is set up as a high-resolution fluorescence acquisition microscope. The Eclipse is coupled to a 12-bit QImaging Retiga 1300i digital capture camera. Use of this acquisition system should be limited to those investigators that have observed their samples previously on lower resolution systems and require the image quality afforded by this system.


Power Up Procedure
• For your protection as well as the equipment, please dawn gloves provided to you by the ImageCORE at no charge
• Carefully remove the protective dust cover from the microscope ensuring that the back of the cover does not catch or move the mercury supply adjustments
• The Nikon Eclipse has 2 power supplies. The order in which these supplies are turned on is important. Begin by turning on the main power supply (1.1). Once the main supply is on, adjust the selector on the base of the scope (1.2) to either “DIA” for brightfield microscopy or “EPI” for fluorescence microscopy. This selector toggles the white light source on and off.
• Should you desire fluorescence excitation, you will need to turn on the mercury light source. It is imperative that the mercury source is used for duration of at least 15minutes. Likewise, it is also imperative that the mercury source not be switched on after prior use for at least 30 minutes.
• In order to illuminate the mercury light source, turn on the power supply (1.3). Next, in order to ignite the bulb, press and hold the “ignition” button (1.4). Once the bulb is properly ignited, the “ready” light will illuminate.

Image Acquisition
• Select the appropriate excitation wavelength using the filter cube selection slider (2.1). Further compose your image using the focus and translation stage. When you are not actively observing or imaging your sample, it is important to engage the shutter (2.2) and block the excitation light to your sample. When the shutter is depressed, the light path is undisturbed and excitation can occur. Subsequently, when the shutter is pulled out, the light path is disturbed.
• In order to set the scope for digital capture, it is necessary to manipulate the “eyepiece/camera” selector (2.3). When depressed, the eyepieces are in the light path and when pulled out, the digital camera is in the light path.
• Having configured the microscope properly as discussed herein, it is now time to configure the computer system for digital image capture. Please refer to the separate instruction document entitled “Computer Login/Image Acquisition Instructions.”

Shutdown Procedure
• After properly restarting the computer system as discussed in the “Computer Login/Image Acquisition Instructions,” attention must be paid to the microscope.
• Begin by returning all system on the scope to their “off” positions. This includes moving the filter slider (2.1) left to the “DIA” position. Next make sure the shutter (2.2) is pulled out from the scope and blocking the light path. Lastly, move the “eyepiece/camera” selector (2.3) inward towards the scope to “eyepiece” position.

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Aquatica Pro Digital Housing for the Nikon D700 Operating Manual

Aquatica Pro Digital Housing for the Nikon D700 Operating Manual

The AQUATICA Pro Digital Housing is the result of a long and continuing relationship with the most demanding underwater photographers in the world. Each housing is handcrafted, quality checked and pressure tested to a 300 feet equivalent by a small group of specially trained individuals, each of whom takes the utmost pride and satisfaction in offering the best underwater camera housing in the world.

The Aquatica Pro Digital Housing was designed for optimum technical and optical performance and to provide easy and efficient underwater access to essantials functions and controls of the Nikon D700 DSLR.

This manual assumes that the User is already familiar with the Nikon D700 camera. If not, please read the Nikon instruction Manual before attempting to use the housing.

With basic care and maintenance, your AQUATICA housing will give you a lifetime of enjoyment and satisfaction in producing underwater images.

Please read this manual carefully before using your housing for the first time and note that: wherever cited the right hand is your right when using the housing.

Get pdf Aquatica Pro Digital Housing for the Nikon D700 Operating Manual

Aquatica Pro Digital Housing for the Nikon D700 Operating Manual

Aquatica Pro Digital Housing for the Nikon D700 Operating Manual

The AQUATICA Pro Digital Housing is the result of a long and continuing relationship with the most demanding underwater photographers in the world. Each housing is handcrafted, quality checked and pressure tested to a 300 feet equivalent by a small group of specially trained individuals, each of whom takes the utmost pride and satisfaction in offering the best underwater camera housing in the world.

The Aquatica Pro Digital Housing was designed for optimum technical and optical performance and to provide easy and efficient underwater access to essantials functions and controls of the Nikon D700 DSLR.

This manual assumes that the User is already familiar with the Nikon D700 camera. If not, please read the Nikon instruction Manual before attempting to use the housing.

With basic care and maintenance, your AQUATICA housing will give you a lifetime of enjoyment and satisfaction in producing underwater images.

Please read this manual carefully before using your housing for the first time and note that: wherever cited the right hand is your right when using the housing.

Get pdf Aquatica Pro Digital Housing for the Nikon D700 Operating Manual

Nikon Custom WB Procedures ExpoDisc White and Warm Balance Filters

Nikon Custom WB Procedures ExpoDisc White and Warm Balance Filters

Nikon D40 and D40x
1. Install the ExpoDisc over the front of the camera’s lens.
2. Allow the camera to set an automatic exposure using the ‘P’, ‘S’ or ‘A’ modes, or set the correct manual exposure in ‘M’ mode.
3. Press the ‘MENU’ button to access the back LCD menus. Select ‘White Balance’ in the Shooting Menu (green camera icon).
4. In the ‘White Balance’ Menu, use the directional pad to select PRE White balance preset’.
5. Select ‘Measure’ from the White balance preset menu.
6. The camera will ask whether you want to ‘Overwrite existing preset data?’ Select ‘Yes’. A message will appear telling you to take a photo.
7. With ‘Pre’ blinking on the shooting information display, aim the camera towards the light illuminating the subject. Press the shutter release button.
8. A successful white balance measurement will result in a ‘Data acquired’ message on the display.
9. Improper exposure may result in a ‘Subject is too dark’ message. If this message appears, then adjust exposure and repeat steps 3-7 until you receive a ‘Data acquired’ message.
10. Remove the ExpoDisc and start shooting.

Nikon D50, D70 and D70s
1. Install the ExpoDisc and set the camera to Manual Focus mode.
2. Allow the camera to set an automatic exposure using the “P”, “S” or “A” modes, or set the correct manual exposure in “M” mode.
3. Press and hold the ʻWBʼ button with left thumb while turning right thumb wheel to select ʻPreʼ in the control panel, then release the ʻWBʼ button.
4. Press and hold the ʻWBʼ button again until ʻPreʼ begins to blink in the control panel.
5. While ʻPreʼ is blinking (10 seconds), aim the camera in the appropriate direction for the given lighting condition and press the shutter release button. See the ExpoDisc Instruction manual for more information on where to aim the camera.
6. ʻGoodʼ will replace ʻPreʼ in the control to indicate a successful white balance reading.
7. If ʻno goodʼ appears, then repeat steps 5 and 6 until you see ʻgoodʼ flash in the control panel (too much, or too little light may result in a ʻno goodʼ reading).
8. Lightly press the shutter release button to exit menu functions.
9. Remove the ExpoDisc, return camera to auto focus mode (if desired), and start shooting.

Nikon D60
1. Install the ExpoDisc over the front of the cameraʼs lens.
2. Allow the camera to set an automatic exposure using the “P”, “S” or “A” modes, or set the correct manual exposure in “M” mode.
3. Press the ʻMENUʼ button.
4. Display the shooting menu and select ʻWhite Balanceʼ > Preset Manual, and then press the multi selector right.
5. Highlight ʻMeasureʼ and press the multi selector right. The screen shown at right will be displayed; highlight ʻYesʼ and press ʻOKʼ.
6. The message. “Take photo of white or gray object filling viewfinder under lighting for shooting,” will be displayed. When the message clears from the display, ʻPreʼ will start blinking in the viewfinder. ʻPreʼ will remain blinking for about 10 seconds or until the shutter is tripped.
7. With ʻPreʼ blinking, aim the camera towards the light illuminating your subject. Press the shutter release button.
8. If the camera was able to measure a value for white balance, the message “Data acquired” will be displayed.
9. Improper exposure will result in an error message that reads “Unable to measure preset white balance. Please try again.” Adjust your exposure and repeat steps 4-8 until you see the message “Data acquired”.
10. Remove the ExpoDisc and start shooting.

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Ikelite Digital Housing Supplemental Instructions for Nikon S210 ULTRAcompact Digital Housing

Ikelite Digital Housing Supplemental Instructions for Nikon S210 ULTRAcompact Digital Housing

Camera Setup (Nikon S210)
1. Set camera to Macro Mode.
2 Set camera to Auto Mode (camera icon).
3. Set ISO to 64
4. Set AF35 dial to 4 (if applicable)
NOTE: If over-exposure occurs, enable Macro Mode setting. If over-exposure continues, back away from the subject and then zoom in as necessary. Camera will focus far away even if Macro Mode is on. You can also use (-) Exposure Compensation.

Ikelite W-20 Wide-Angle Conversion Lens #6420
An external wide angle conversion lens increases angle of coverage so you can get much closer to your subject while still fitting everything in the frame. Add an Ikelite W-20 or other wide-angle lens with an Ikelite accessory port adapter. Use for increased color and clarity in any conditions.
NOTE: Slight vignetting may occur at widest angle camera lens setting. Zoom in slightly to eliminate, or crop the image in post-processing.
#9306.81 67mm Threaded Adaptor
Allows attaching Ikelite W-20, Epoque, and Type II Inon screw-on lenses with 67mm threads. Includes larger size removable flash deflector.
#9306.80 Bayonet Mount Adaptor
Allows attaching of the Inon UWL-105AD bayonet style lenses. Includes larger size removable flash deflector. Vignetting will occur at wide angle settings with these lenses. Zoom in or crop the image to eliminate vignetting.

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Steps for scanning slides with the Nikon LS-1000 scanner

Steps for scanning slides with the Nikon LS-1000 scanner

1. Gently insert your slide into the scanner slot. Do not force the slide into the scanner, otherwise the scanning mechanisms may be damaged. Also, never pull out a slide during a scan. Wait until the scan is finished and gently pull the slide out.
2. Launch Photoshop.
3. Select File>Import>Nikon Scan. The Nikon scanning software interface displays.
4. From the Color pull-down menu, choose either color positive or black-and-white positive, based on your slide.
5. In the Output Resolution field, type the amount of resolution you would like the final scan to have. Usually it is best to start with a high resolution such as 300 dpi, and then the resolution can be reduced later if needed. The standard resolution for images that will be viewed digitally is 72 dpi; the resolution for images that are intended to be printed is based on the printer and the quality you desire. Remember that higher resolutions correspond to larger file sizes!
6. Click the Preview button. An image of your slide displays. Don’t worry if the image is scanned in the wrong direction; you can rotate the image in Photoshop later.
7. Select the area to be included in the final scan. To do this, hold down the mouse and drag diagonally across the area of the image to be included in the final scan. A box with handles on the sides and corners appears, indicating what area of your image will be included in the final scan. Adjust if needed.
8. Click the Scan button. The scan is performed and the image is placed in a Photoshop file.
9. Select File>Save. Select the desired destination for your image and give it a title. Click the Save button.
10. At this point, the image can be rotated and improved in Photoshop using various filters, cropping commands, and level adjustments.
11. To remove your slide, return to the Nikon scanning software by selecting File>Import>Nikon Scan while you are in Photoshop. When the Nikon interface displays, click the Eject button (the button shown below) and your slide is ejected.

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Using The Nikon CoolPix 995 For Microscopic Photography

Using The Nikon CoolPix 995 For Microscopic Photography

The document will serve as a guide for setting up the Nikon 995 camera for microscopic photography.
Attaching the Camera to the Microscope
1. Remove the right eyepiece from the microscope by loosening the small
Allen screw located around the bottom ring of the eyepiece using the supplied Allen wrench. Note: turning the small Allen screw counterclockwise loosens it and turning it clockwise tightens it. When replacing the eyepiece do not overly tighten the Allen screw. Only a small amount of pressure is required to secure the eyepiece to the microscope.
2. Attach the eyepiece adapter to the camera by screwing (in a clockwise direction) it to the threads located around the camera lens. Be careful not to strip the threads. The adapter should turn easily onto the threads. You can make sure the threads are aligned properly by turning the adaptor in a counter clockwise direction about ½ of a rotation while resting it against the lens threads. You will feel the adapter align to center indicating that you can begin turning in a clockwise rotation to screw it to the lens.
3. Once the adaptor is attached to the camera, slide the barrel of the adaptor into the eyepiece tube to mount the camera on the microscope.
a. You may tighten the Allen screw to secure the camera so that the field of view is upright and the camera is aligned at a right angle to the eye tube.

Camera Settings (these are the settings that have given me the best results)
1. Turn the camera on by turning the mode-dial located to the right of the top LCD panel to M for manual.
2. Select the focus as close-up by pressing the focus mode button, labeled M-Focus, until a flower icon appears in the monitor. Use the zoom range control to zoom in until the flower icon turns yellow. This will place the camera in macro mode and allow for the sharpest focus.
3. Use the Mode button located on top of the camera in conjunction with the command dial to set the camera to Auto-Aperture (A) mode. An A in the bottom left of the monitor indicates that you are in aperture mode. Note that it will cycle between P, S and A. The illustration above shows the P setting. You will also see an A appear in the Control Panel as illustrated below.

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ADB Focus Universal Remote Instructions Manual

ADB Focus Universal Remote Instructions Manual

Congratulations on your purchase of the FOCUS 3-MODE Universal Remote Control. By choosing the FOCUS 3-MODE remote you have opted for the User Friendly remote control solution. Made according to the highest quality, the FOCUS 3-MODE will provide you with long-term satisfaction. Please read these enclosed instructions carefully before putting your FOCUS 3-MODE to use.

Batteries
Your FOCUS 3-MODE Remote requires 2 new “AA/LR6″ Alkaline batteries.
1. Push and slide the battery door downwards and lift it up to remove it.
2. Match the batteries to the (+) and (–) marks inside the battery case, then insert the batteries.
3. Place the battery cover by sliding upwards and allowing it to click back into position.
- It is recommended that you do not use rechargeable batteries.
- On the inside of the battery compartment door you will find a label on which to write your Set-Up Codes for future reference.

The Keypad
Please refer to the picture of the UNIVERSAL FOCUS 3-MODE Remote Control.
1. Device Keys:
The TV, DVD & STB keys select the home entertainment device you wish to control. For example, pressing the TV key allows the remote to control the functions of your television. Pressing the DVD key allows the remote to access either DVD or VCR devices.
2. LED:
During the use of your FOCUS 3-MODE, the LED under the corresponding device key will light up red.
3. AV Key:
The AV key operates the same function it did on your original remote.
4. Menu Key:
The Menu key brings up the menu of the device that is selected.
5. Power Key:
The Power key powers whatever device is selected. Select TV, Power to turn your TV on and off.
6. Shift Key:
The Shift key is used to set-up your FOCUS 3-MODE Remote Control and to access special functions.
7. Number Keys:
The Number keys (0-9) provide the functions just like your original remote, such as the direct access to program/channel selection.
8. Guide Key:
After pressing the STB device key, the Guide key brings up the on-screen TV Guide.

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The Image Mechanics Fluid Mount Scanner tray for the Nilkon Super Coolscan 8000/9000

The Image Mechanics Fluid Mount Scanner tray for the Nilkon Super Coolscan 8000/9000

Our patented Fluid Mount Tray is designed to improve the quality of scans available from a Nikon™ 8000 and 9000 scanners. Made from a genuine Nikon scanner tray to ensure perfect operation, it allows you to fluid mount your film (from 8mm to 2 1/4 and everything in between) for the best possible scans.

Note: While our product is carefully crafted to prevent damage to your scanner, the scanner is not intended for use with fluid mounting systems. Use of this product may void the warranty of your scanner. Image Mechanics and Freestyle makes no warranties against damage to your scanner. USE THIS PRODUCT AT YOUR OWN RISK. Please test the seal of your tray by putting it on dry newspaper and filling it below the top of the tray with WATER (ONLY) overnight. DO NOT USE KAMI OR OTHER SOLVENTS TO TEST THE SEAL OF THE TRAY. If the tray leaks through any of the doublesealed seams, Image Mechanics and Freestyle will replace it free of charge.

OPERATION INSTRUCTIONS
Fluid Mounting:
1) Clean the glass with a non-ammonia glass cleaner such as Sprayway Glass Cleaner using your Webril lint-free wipe. Ammonia is not archival and not recommended around any photographic material. Do not use any cleaner, including ammonia, that might damage the silicone adhesive used to secure the glass plate in the film holder (such as nail polish remover, lighter fluid, etc.) .
2) Thoroughly dry the entire film holder using compressed air or a lint-free cloth. Also use the compressed air to remove any surface particles from the top and the bottom of the glass.
3) Make sure you have the proper side of the tray up first. Place a few drops of Kami fluid where you intend to place the film on the tray. Use the compressed air to remove the particles from the film itself on both sides and then place the film on the fluid. Keep the film square to and centered between the side lines. Also, the scanner will scan film easier when the film is closer to the front of the tray (the end which is inserted into the scanner). For example, with 6X9 cm film only the two images closest to the front can be easily scanned. Note that the masked side lines on the scanner glass are intended to indicate the APPROXIMATE maximum boundary of the scan area. For best results, when mounting film to the glass plate of the scanner you should keep your film centered between the aid lines and parallel to the side line. Note that the side lines are intended as guides only and may be slightly off-center, or slightly off “true”. Also, there needs to be just a few drops of fluid, enough to make its way under the film. Do not soak the tray in fluid, it wastes fluid and can damage the scanner.

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