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Summary of Contents for Cognisys StopShot
- Page 1 Turning ordinary moments into extraordinary pictures Owner’s Manual Revision 1.6 Copyright 2009 Cognisys, Inc. ...
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Page 2: Table Of Contents
Table of Contents SAFETY INSTRUCTIONS .......................... 4 GETTING STARTED ............................. 4 OPERATION ............................... 7 ............................... 7 VERVIEW .............................. 7 AIN ONTROL ........................... 8 LOBAL ONFIGURATION 3.3.1 Global Trigger Mode Overview ........................ 8 ... - Page 3 ANIMATED TIME‐LAPSE MOVIES ....................... 5 1 TROUBLESHOOTING .......................... 5 2 SPECIFICATIONS ............................ 5 3 WARRANTY ............................ 5 4 GLOSSARY ............................ 5 5 REVISION HISTORY .......................... 5 7 Table of Figures Figure 1 ‐ Typical Connection Diagram ...................... 5 ...
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Page 4: Safety Instructions
StopShot module, accessories, and devices (cameras, flashes, etc). Failure to follow all CAUTION notices may void your warranty. CAUTION may also indicate a potentially hazardous situation which, if not avoided, may result in personal injury. The safety alert symbol precedes a general CAUTION or WARNING statement. The electrical hazard symbol precedes an electric shock hazard CAUTION or WARNING statement. 2. Getting Started The latest version of this manual is available at http://www.cognisys‐inc.com. The StopShot deluxe package contains the following: 1. StopShot Module (1) 2. AC/DC Power Adapter (1) 3. Operation Manual CD (1) 4. Beam Sensor – Infrared Transmitter and Receiver 5. Oak Base for Sensor components 6. 3 in ‐ PC to Female RCA Cable 7. 6 ft ‐ RCA M/M Cable 8. 6 ft ‐ 3.5mm M/M Cable 9. 6 ft ‐ 2.5mm M/M Cable To connect the beam sensor use the 3.5mm cable and connect one end to the jack labeled “Sensor” on StopShot and the other end of the cable to the IR receiver as shown below in Figure 1. Then use the 2.5mm cable to connect the transmitter and receiver together. The 2.5mm cable provides power from the receiver to the transmitter. ... -
Page 5: Figure 1 - Typical Connection Diagram
Power to the StopShot module is provided through an AC to DC power adapter. Plug the power adapter into the StopShot module jack labeled “Power”, and plug the adapter into the wall. The unit will power up, display a splash screen, and then continue to the main screen. Flashes and shutter control should be connected to the Trigger 1, Trigger 2, and/or Trigger 3 RCA jacks. Figure 1 ‐ Typical Connection Diagram WARNING: High voltage flashes should NOT be connected to the StopShot module or any of its associated adapters/connectors/cables. Doing so could expose you to dangerously high voltages resulting in serious injury or death. All new flashes on the market do not expose high voltage on the hot‐shoe. These are the flashes intended for use with the StopShot module. Please visit our web‐site at http://www.cognisys‐inc.com for a list of low‐voltage flashes, or contact us via e‐mail at: support@cognisys‐inc.com. WARNING: Do not use StopShot to automate the firing of ballistics. Serious injury and/or death may occur. CAUTION: Only use the power adapter (cube) that came with the StopShot module. Use of other power adapters may damage the module. ... - Page 6 CAUTION: Do not use “Y” adapters for the trigger outputs to connect more than three devices. Some devices generate significant transients (like solenoids) that may damage sensitive equipment such as cameras and flashes. StopShot is protected from these transients but other electronics (such as flashes and cameras) may not be. It is acceptable to use a “Y” adapter to connect more than one device to a trigger output as long as the devices are similar. If you have any questions or concerns about device compatibility, please contact us at: support@cognisys‐inc.com. ...
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Page 7: Operation
3. Operation 3.1 Overview StopShot allows precise control over flashes, cameras, and other electronic devices. It may be configured to give virtually any combination or sequence of events. This allows for several different effects: Stopping water drops in time, projectiles paused at the moment they pierce and object, or even time‐lapse imagery. Once comfortable with simple settings, advanced triggering can be used to coordinate complex series of events: Pushing a button to release a water drop from a solenoid controlled valve, crossing through a beam sensor, and then firing a high‐speed flash. The SELECT button moves the cursor from line to line on the display. The UP and DOWN button adjust the values for each line. The different modes of operation are listed in subsequent sections. Settings will be saved across power cycles. 3.2 Gain Control The gain knob is used to adjust the sensitivity of StopShot to the trigger inputs. If using the microphone and the microphone gain is set to minimum, it would take a louder noise to cause StopShot to trigger (because the sensitivity is turned down). If the gain is set to maximum, then quiet noises will trigger. If ambient noise is triggering StopShot then turn the gain down. When using the standard beam sensor the gain may be used to adjust the sensitivity. Decrease the gain if the sensor is triggering falsely due to ambient light or noise. For most applications that use the IR and laser beam sensors the gain should be set to the middle position. Digital inputs such as the cross‐beam sensors should also have the gain set to the middle position. To avoid false triggers is always best to keep the gain at the lowest setting while still reliably triggering. If the LED for a particular channel is on or flashing try turning the gain down to correct this issue. You may see this if you have a sensor cable attached to StopShot with no sensor plugged in and the gain turned all the way up. ... -
Page 8: Global Configuration
3.3 Global Configuration To enter StopShot’s Global Configuration, press and hold the CONFIG button for two seconds. The display will change to indicate that you are now in the “Global Config” menu. To return to the main screen press the CONFIG button. 3.3.1 Global Trigger Mode Overview There are four available global trigger modes (“TMode”). The “Independent” mode (default) means that if all the output channels are configured as triggers, once an input event occurs (an infra‐red beam is crossed, or a sound threshold is exceeded) all three outputs will function simultaneously. For example, if each output trigger is configured for a 5ms delay, all three outputs will trigger at the same time. They are independent because they do not depend on the state of any other trigger. Other possible triggering options are discussed in section 3.5. If the “TMode” in Global Configuration is set to “Sequential” and all three trigger outputs are set to 5ms, the first time an input event occurred the first output would fire, the next input event would cause the second output to fire, the third input event would cause the final third output to fire. Each trigger output may be configured to handle the input event differently and the options are discussed in section 3.6. If all the different types of configurations are scaring you – don’t worry. We’ll walk you through them step by step. In the section 7 of this manual, we’ll show you exactly what settings are being used, how the shot was physically set up, and the picture we ended up with. Another available “TMode” is “Time Lapse”. This allows the Trigger 1 output to be fired at a specified interval. For help with this mode please see section 3.7 . The final mode is Flash Duration (“F duration”). This mode allows you to measure the duration of a flash. See section 3.8 for more details. 3.3.2 Loading/Saving configurations StopShot automatically saves the last settings used, but sometimes it is more convenient to save different configurations for different setups (one configuration for insects, another for water‐drops, and yet another for ballistics). To load or save the settings, press the SELECT button until the cursor is next to “Load/Save Config” and press the UP or DOWN button to enter the next screen. == Global Config ==... - Page 9 From this screen you have two options – to either load or save the configuration. Press the SELECT button to change between the two options. Under the “Load” screen, you will see the following: == Load Config == 1. <empty> Up/down to select. Using the UP or DOWN buttons, you can scroll through the ten available configurations to retrieve. If they have never been loaded with a configuration before it will show up as “empty” otherwise it will show the name you had previously saved. Once you have highlighted the desired configuration to load, press the SELECT button. This will take you to the main screen for this configuration. You can abort the loading screen by simply pressing the CONFIG button. The process is similar for saving a configuration. Once “Save” is selected, you will see the following screen: == Save Config == 1. <empty> Up/down to select. Use the UP or DOWN buttons to select which configuration you would like to save. You can overwrite previously stored configurations. Once the desired configuration is selected, press the SELECT button. At this point you can enter a name. The cursor underlines your current position. The UP and DOWN buttons may be used to change the characters. Each time SELECT is pressed it will take you to the next character position. Keep pressing select until all the characters have been entered (A total of 12 may be used). Not all spaces need to be filled, just keep pressing select to finish the entry. Upon saving the configuration the ...
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Page 10: Backlighting
3.3.3 Load Defaults == Global Config == TMode: Independent Load/Save Config > Load Defaults: -> Once this option is selected, pressing the UP or DOWN button will reset all the current settings in StopShot to the factory default. If you’ve changed the configurations into something where it just isn’t doing what you expected or it will take longer to get everything back to an initial condition – use this option. Beware that by selecting this option all the current settings will be lost. Note: This action will not erase your presets. 3.3.4 Backlighting == Global Config == > LCD Backlight: 10 Pwr Off: None Pwr Toff: off -> ... -
Page 11: Power Off Duration
The sensor power is immediately disabled when an input condition is satisfied. If a trigger output is configured for a 50ms delay, the power will be disabled immediately when an input event occurs, wait 50ms, and then activate the trigger output. The different trigger output modes for StopShot are discussed in section 3.4. Note: An important consideration when using this mode is that it may prevent other triggers from seeing an input for the duration that the sensor power is disabled. 3.3.6 Power Off Duration == Global Config == LCD Backlight: 10 Pwr Off: None > Pwr Toff: off -> This setting (“Pwr Toff”) allows the adjustment of the duration that the “Sensor Power Off” feature discussed in section 3.3.6 will leave the sensor(s) disabled. This duration is only used if the “Pwr Off” setting is set to a value other than “None”. Use the UP and DOWN buttons to adjust the duration. The sensor can be disabled longer than the delay that a trigger output is configured. Any sensor activity will be missed for the duration of this power off time since the sensor(s) are disabled. See Figure 2 below to demonstrate the behavior of this feature. ... -
Page 12: Sequential Timeout
Figure 2 ‐ Sensor Power Disable This timing diagram shows Trigger 1 configured for a 100ms delay, “Pwr Off” set to “Trig 1”, and “Pwr Toff” set to 300ms. The sensor is immediately disabled when the input event (for example a laser beam being crossed) occurs. The re‐enabling of the sensor power occurs independently from the Trigger 1 delay configuration. Don’t worry about all these settings yet – they’re discussed in detail starting with section 3.4. 3.3.7 Sequential Timeout == Global Config == > SEQ Tout: off -> Sequential timeout (“SEQ Tout”) is only displayed if your trigger mode (See section 3.3.1) is set to “Sequential”. Once the trigger mode is set appropriately an arrow in the bottom right hand corner of the display appears indicating that additional settings are available. Continue pressing the SELECT button past “Load Defaults:” to reach the second page. Sequential timeout is useful to abort a sequence if all of the triggering conditions are not met within the specified amount of time. When a sequence is aborted it will return to the first enabled trigger in the sequence. The UP or DOWN buttons adjust the value of this ... -
Page 13: Output Configuration
NOTE: Sequential timeout may cause some “curious” behavior which may appear as StopShot not working properly. This is because the timeout will abort the sequence and restart it (which is its intended function). It takes precedence over any active trigger. Make sure you’re comfortable with your settings prior to enabling the timeout. As always, contact us with any questions. 3.4 Output Configuration From the main screen, the SELECT button moves from one trigger output (“Trigger”) to the next. To change the output delay (if so configured) you may press and release the UP or DOWN button, or hold the button down to automatically increment /decrement the value. In this way one or more trigger outputs may be activated. To change the configuration of each output, first press the SELECT button until the cursor is next to the “trigger” output you want to change. Press the CONFIG button. This will bring up the output configuration screen. This screen enables each trigger output to be configured in a different way by changing the parameters described in the sections below. The trigger output type (“T Mode”) is adjusted by using the UP and DOWN buttons. The SELECT button moves from one configuration parameter to the next. If an arrow appears on the right side of the screen that indicates that an additional screen of configurations is available. As you press SELECT it will switch to the next screen automatically. To return back to the main screen, press the CONFIG button again. The main screen is changed to indicate how each output is configured. 3.5 Independent Triggering 3.5.1 Overview Independent triggering means that the output timers/triggers operate completely independent of each other. Independent triggering is a “Global Configuration”. Once this global configuration is set (described in the “Global Configuration” section 3.3 above), the output modes below are available. ... -
Page 14: Manual
3.5.2 Manual “Manual” trigger mode requires an UP/DOWN button press to activate. To change an output to “Manual “configuration, from the main screen press the SELECT button until the desired trigger output is selected. Press the CONFIG button. This will bring up the timer configuration screen. Press the UP/DOWN buttons until the “T Mode” is changed to “Manual”. > T1 Mode: Manual Pulse: 500.0 ms Toff: 500.0 ms # Pulse: 1 With this type of output you have the option of adjusting the duration of the output pulse that is generated. It functions exactly as discussed in the “Trigger” mode (section 3.5.3). The number of pulses (“# Pulse”) may be set to a value greater than one if multiple trigger output pulses are required. This could be used to generate multiple initial events (such as multiple water drops). “Toff” is used as the off‐time between pulses provided the number of pulses is greater than one. This allows complete flexibility for the on and off duration of the output. Press the CONFIG button to return back to the main screen. The “Manual” mode is activated by pressing the UP/DOWN button when the cursor is next to this trigger output. If the cursor is not next to the desired trigger output, press the SELECT button until the cursor is next to it. Manual triggering can also be used in sequential mode for staging shots. This allows a sequence of events to start upon a button press. The maximum number of pulses that can be generated is 1000. Once a manual event is triggered, it may be aborted by pressing either the UP or DOWN button. Figure 3 illustrates the configuration below: ... -
Page 15: Trigger
Figure 3 ‐ Manual Mode Timing Diagram 3.5.3 Trigger All three trigger outputs may be configured to react to a sensor input. When a trigger output’s mode (“T Mode”) is configured as “Trigger”, an input event is required. This is the mode that is required for using a beam sensor or microphone input. To change an output to “Trigger”, from the main screen press the SELECT button until the desired output is selected. Press the CONFIG button. This will bring up the Timer Configuration screen. Press the UP/DOWN buttons until the “T Mode” is changed to “Trigger”. > T1 Mode: Trigger Pulse: 500.0 ms Blank: Off Incrm: Off -> In this trigger mode you have additional options to modify (if required). Pulse: With this type of output you have the option of adjusting the output pulse that is generated. This is the “Pulse” field. The default is 500ms, but may be adjusted as necessary for your application. Some loads may have a minimum pulse time before they will trigger. For electro‐ mechanical devices such as a relay controlling a solenoid, you may need to increase this time. Cameras and flashes are generally edge sensitive and the pulse duration can be left at the default. This duration may be adjusted to “Latch” for sequential mode, discussed in section 3.6. ... - Page 16 -> In this example, “Pulse” is set to 500ms, and “Blank” is set to 200ms. When an input event occurs (for example, a beam sensor being crossed), the trigger output will delay by whatever value is entered on the main screen, generate a 500ms pulse, and then wait 200ms before looking for an input again. “Blank” is useful for ignoring all but the first of a series of rapidly occurring events. If the trigger output is being used to control a flash this allows time for it to fully charge before triggering again. Incrm: This timer mode has the option to automatically increment the timer’s main delay every time an event occurs by adjusting the “Incrm” configuration. If an event is easily repeatable and this increment is set you can create a simulated “time lapse” for some quickly occurring event (like a drop of water falling). If this value is set to 10.0 ms, and from the main screen the trigger output is set to 100.0 ms, every time a trigger occurs the delay would increase by 10ms. The delay setting will be updated on the main screen following each trigger event. The first time the trigger would wait 100 ms. The second: 110 ms. The third: 120 ms. Every time StopShot activates the trigger output the delay on the main screen will be incremented by the “Incrm” value. If you want to start the sequence over simply adjust the trigger output value on the main screen back to its original value using the UP/DOWN buttons. Toff: “Toff” appears after you press SELECT on the “Incrm” setting. The second page of configurations for this trigger output will appear. > Toff: 100.0 ms # Pulse: 1 -> See the section 3.5.2 “Manual” Triggering for additional information regarding “Toff” . ...
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Page 17: Cross-Beam Sensor Modes
Output triggers Sensor ignored during blanking time Beam sensor crossed Beam sensor crossed Trigger In Trigger Out Delay Pulse Blank Pulse Delay + incrm Figure 4 ‐ Trigger Timing Diagram 3.5.4 CrossBeam sensor modes If you have purchased the cross‐beam sensor additional trigger modes are available. These modes are present in all StopShot modules so if you decide to purchase the beam sensor at a later date no software upgrade is required. The cross beam sensor opens up a multitude of options for creative triggering especially for capturing things in the natural world like insects and birds. To change a trigger output to one of the cross‐beam sensor configurations, from the main screen press the SELECT button until the desired trigger output is selected. Press the CONFIG button. This will bring up the Timer Configuration screen. Press the UP/DOWN buttons until the “T Mode” is changed to the desired cross‐beam mode. These are discussed below. See section “5.4 ‐ Cross‐beam Sensor” for instructions on connecting this sensor. ... - Page 18 The following configurations are available for this sensor: > T1 Mode: X-Beam a&b Pulse: 500.0 ms Blank: 200.0 ms Incrm: Off -> These configurations function identically to the “Trigger” mode in section 3.5.3. 3.5.4.4 XBeam a|b In this configuration “A” or “B” will create a trigger condition for StopShot. The main screen will display “XBS a|b”. Use this sensor mode when it doesn’t matter which sensor is activated. The possible configurations for this mode are identical to the “X‐Beam a&b” mode. 3.5.4.5 XBeam a>b The main screen will display “XBS a‐>b” for this mode. Use this mode if you want to trigger on an object only moving in one direction. A good example would be capturing a bird entering a nest but not leaving. The configuration for this mode is shown below: > T1 Mode: X-Beam a->b Pulse: 500.0 ms Blank: 200.0 ms Timeout: 250.0 ms...
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Page 19: Ballistics
“Pulse” and “Blank” function the same as the previous modes (see section 3.5.3). “Timeout” is discussed below. When beam “A” is broken, the letter “a” in “XBS a‐>b” on the main screen will be capitalized (“XBS A‐>b”) to indicate that the “A” condition has been met and StopShot is waiting for the “B” condition. If the “B” beam is not broken prior to the configured “timeout” then the letter “A” will revert back to lower‐case indicating that StopShot is once again waiting for the “A” condition. This “timeout” option is a way for the trigger to re‐arm if event “B” never occurs. In the example of the bird entering a nest – If the bird flew close to the nest but did not land, it would allow StopShot to re‐arm the trigger output for the next time the bird would approach the nest. 3.5.4.6 XBeam b>a This mode functions the same as “X‐Beam a‐>b” but beam “B” must be broken first, followed by “A”. This allows direction reversal through the sensors without having to physically move them. 3.5.5 Ballistics Ballistics mode (“Ballist” on the main screen) simplifies triggering on objects that pass between two beam sensors. For this mode you may use the cross‐beam kit or two infra‐red beams connected using a 3.5mm “Y” connector. This configuration virtually eliminates the variability involved with capturing something that has an unpredictable (or unknown) speed. In this mode, StopShot measures the time elapsed between the two beam sensors and then triggers the output that duration (plus a configurable delay). By pressing the CONFIG button, you have the following configurations that you may adjust for this mode: > T1 Mode: Ballistics Pulse: 500.0 ms Timeout: 250.0 ms Dist mult: 1 -> Similar to the other modes, the “Pulse” time is the duration that the output will be active. ... -
Page 20: Figure 5 - Ballistics Timing
2. The time to cross between beam sensors may range from 100us to hours. 3. The object must be traveling fast enough to prevent the sensor from reaching a “steady state” dark condition. Otherwise StopShot will measure the time between light‐>dark then dark‐>light. 4. Despite the name “Ballistics” this mode may also be used to capture wildlife. 5. Laser sensors are more difficult to align with the projectile. The beam‐width of the laser also requires precise alignment. We recommend using infrared transmitters for capturing small projectiles; they are much more forgiving to align. Shown below is the timing, measurement, and output triggering of Ballistics mode. Figure 5 ‐ Ballistics Timing ... -
Page 21: Sequential Triggering
3.6 Sequential Triggering 3.6.1 Overview Sequential triggering indicates that the output timers/triggers depend on each other. Sequential triggering is a Global Configuration. Once this Global Configuration is set (described in section 3.3.1), the output modes below are available. When in Sequential Triggering, “SEQ” is displayed in the upper‐right hand corner of the main screen to differentiate between this mode and Independent mode. Sequential mode expands the number of creative shot possibilities. Let’s say the following configuration is used: == StopShot == > Manual 1: Waiting Trigger 2: 200.0 ms Delay 3: 10.0 ms In this example, trigger output 1 is set up as “Manual”, output 2 set as “Trigger”, and output 3 set as “Delay”. With this configuration, trigger output 1 will run to a solenoid controlled water valve, output 2 to a shutter on a camera, and output 3 to a flash. When the manual output is activated by pressing the UP/DOWN button, the water drop would be released from the water valve. StopShot would then advance to the output 2 configuration and wait for the water drop to cross the beam detector. Once it crosses the beam detector, output 2 will wait the configured amount of time (200.0 ms) to open the shutter on the camera. Output 3 will delay long enough for the shutter lag to expire, and then fire the flash. This is a fairly complicated setup, but it would allow you to take a high speed picture with the lights on in a room. See Figure 6 below for a timing diagram of this scenario. ... -
Page 22: Figure 6 - Sequential Mode Timing Diagram
Figure 6 ‐ Sequential Mode Timing Diagram If a trigger output is configured as a “Trigger” but the delay on the main screen is set to “off”, then the subsequent trigger outputs will be used. The sequence will be aborted if a configuration for a trigger output is entered (by pressing the CONFIG button). There is an optional sequential mode timeout that may be adjusted as necessary. See section 3.3.7 for details on how to enable the sequential timeout. In the above usage scenario if the timeout was set to one second, StopShot would wait for trigger output 2 up to one second before resetting the sequence and waiting for trigger 1 (configured for manual mode). This is the maximum timeout to wait for each step of the sequence not the time to wait for the entire sequence. Care should be taken when setting this timeout. Time timeout can be set short enough to abort the current trigger output (i.e., setting a two second output pulse would be aborted after one second in the above example). As stated above, the “:” next to each step is updated with a “*” as it completes. If this timeout occurs all the steps will revert to showing the “:” to indicate that StopShot is once again waiting for the first step. ... -
Page 23: Manual Trigger
Sequential mode has an additional feature that lets the “Pulse” duration of the trigger outputs to be configured as “Latched”. This means that the output will stay active until either the sequence completes or it times out. When adjusting the duration of “Pulse”, use the DOWN button to adjust it to the minimum. Once the minimum is reached, “Latched” will be displayed. NOTE: Do not set the final trigger in the sequence to “Latched”. Since it is the final output, it will be disabled immediately (i.e., will not trigger the output). NOTE: Setting the pulse duration to “Latched” when multiple pulses are selected will not generate multiple pulses on that trigger output. The output will stay active for the duration of the sequence (The latched feature overrides). At the end of any sequence there is a forced one millisecond delay. 3.6.2 Manual Trigger Manual triggering is discussed in the Independent Triggering section 3.5.2. While in Sequential Triggering, “Manual” mode is only available on trigger output 1. This allows trigger output 1 to function as the initiating condition (a button press) for a sequence of outputs. 3.6.3 Input Trigger The “Trigger” mode for Sequential Triggering functions exactly like the Independent Triggering mode. See the Independent Triggering section 3.5.3 for more details. 3.6.4 Delayed Trigger The “Delay” triggering configuration is only available in Sequential Triggering mode. It is a simple way to add a delay in activating the trigger output between steps. The “Delay” mode is typically used for Trigger 2 or Trigger 3. It may be used on Trigger 1, but in this mode the sequence will start immediately (the delay will initiate the moment it is configured and begin). To change an output mode to “Delay”, from the main screen press the SELECT button until the desired trigger output is selected. Press the CONFIG button. This will bring up the configuration screen for the specific trigger output. Press the UP/DOWN buttons until the “T Mode” is changed to “Delay”. > T2 Mode: Delay Pulse: 500.0 ms Incrm: Off Sync: No... -
Page 24: Figure 7 - Delay Synchronization
Just like the independent “Trigger” mode you have the option of adjusting “Pulse” and “Incrm” as needed. An additional configuration is “Sync”. When “Sync” is set to “No”, the delay time will start from the falling edge of the previous trigger output (it starts after the trigger output LED is off – so after the “Pulse” time has expired). If “Sync” is set to “Yes”, it will start from the rising edge of the previous trigger output (the moment the output LED turns on). “Figure 7 ‐ Delay Synchronization” below is using the following configuration: == StopShot == > Trigger 1: 100.0 ms Delay 2: 250.0 ms Trigger 3: Off Note the behavior difference of “Delay 2” when “Trigger 1” changes its output. ... - Page 25 Figure 7 ‐ Delay Synchronization ...
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Page 26: Time -Lapse
3.7 TimeLapse Time Lapse is another available “Global Configuration”. Once this global configuration is selected (described in the “Global Configuration” section 3.3.1) Time Lapse mode will be enabled. This is useful for creating a series of shots for something that changes slowly: A sunrise, clouds traversing the sky, plants growing, or even congress voting. The time‐lapse interval is adjusted via the main screen using the UP/DOWN buttons. See the example settings below: == StopShot == > TLapse 1: 2.0 sec Remaining: 1.9 sec Count: 3 You also have the option to adjust the “Pulse” configuration. Like other modes, press the CONFIG button. It will bring up the following configuration screen: TLapse Config: > Pulse: 500.0 ms In this example, the “Pulse” configuration is left at the default of 500.0 ms, and the interval delay is set to two seconds (on the main screen). Since the two seconds is the time between the pulses, there would be 2.0 seconds (interval time on the main screen) plus the 0.500 seconds ... -
Page 27: Flash Duration Measurement
Figure 8 ‐ Time Lapse Timing Diagram 3.8 Flash Duration Measurement StopShot and its infrared beam sensor receiver may be used to measure the duration of a flash. To configure StopShot to measure the duration of a flash press and hold the CONFIG button for two seconds until the global configuration screen appears. Press SELECT until “TMode” is selected. Use the UP/DOWN buttons until “TMode” changes to “F Duration”. == Global Config == > TMode: F Duration LCD Backlight: 10 Load Defaults: Press the CONFIG button to return to the main screen. You will see the following on the display indicating StopShot is waiting for a flash input: Up/down to start Flash Measurement Duration: Waiting If the gain knob is set too high, it is possible for ambient light to falsely trigger the flash measurement. Adjust the gain to the middle position as this will prevent StopShot from triggering on changes in ambient light. ... - Page 28 Up/down to start Flash Measurement Duration: 862.45 us StopShot is capable of measuring flash durations of less than one microsecond and up to three milliseconds with a resolution of approximately 10 nanoseconds. Flash durations that are greater than three milliseconds are not well suited for high‐speed photography (too much motion blur). To capture the duration again, press the UP or DOWN button. To exit the flash duration mode, press the CONFIG button to re‐enter the global configuration (See section 3.3 for details on changing the global configuration). StopShot measures light pulses from start to finish. The threshold of this measurement is controlled by the gain knob. Normally the measurement for flash duration is done at the 50% level. The rise and decay times of a xenon flash can be long. For this reason the flash measurement should only be used for reference. Figure 9 below shows the light output of a flash at full power (this duration is not measurable by StopShot because it exceeds the 3ms limit). Note the exponential decay of the light. The dotted cursor lines in this figure indicate where StopShot would measure this pulse. The exponential decay of this waveform will introduce significant error into this measurement, due to the slow fall time. Looking at Figure 10 below the rise and fall times are very fast (several uS) due to the electronic control of the voltage pulse going to the xenon strobe. StopShot’s measurement for this flash duration would be quite accurate due to the much faster rise and fall times. ...
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Page 29: Figure 9 - Full Power Flash Output
Figure 9 ‐ Full Power Flash Output Figure 10 below shows the same flash unit at sixteenth power. Figure 10 ‐ Sixteenth Power Flash Output ... -
Page 30: Accessories
• Great for water‐drops and ballistics • May be used to measure flash duration • Excellent sensitivity • Adjustable power • Focusing lens available • 6 ft ( 1.8 m) IR range (with optional lens) • 6 ft 3.5mm and 6 ft 2.5mm cable included This IR (infrared) Curtain for StopShot contains both an IR transmitter and receiver. It can be used to capture anything that moves between the elements. It works great for water drops and ballistics. It is sensitive enough to be triggered by a .22 caliber bullet. The sensor’s oak base is designed to be mounted on a standard 1/2" pipe clamp. Shown to the right is a focusing lens (not included) to improve the range of the infrared beam. This lens should not be used when the sensors are close together as it will saturate the receiver and negatively impact the sensitivity. The transmitter for this sensor has an power control knob to adjust the power output. The lowest setting (counter‐clockwise) should be used when the sensor is placed on the provided oak stand. This setting will maximize sensitivity at this short distance. If the sensor is used with more distance between the elements the knob may be moved clockwise to a higher power setting to increase the range. The lowest power‐level possible that successfully triggers should be used to improve sensor sensitivity. This is the senor that is included with the deluxe package. Infrared Beam Sensor ‐ Transmitter/Receiver Specifications Min Typical ... - Page 31 Cross‐Beam Infrared Transmitter/Receiver [XBS_IR02] • Two transmitters and two receivers • 6+ feet (182 cm) IR range • Dual‐axis triggering • Conditional triggering (A followed by B, but within a certain time) • Optional tripod mount available for sensors • LED indicator for incident light on receivers • Two 6 ft 3.5mm and two 6 ft 2.5 mm cables included. Cross beam sensors add a whole new dimension to your triggering capability (literally). They work excellent for subjects whose trajectories are not as defined as water drops or projectiles. This cross beam sensor was designed for capturing images of insects, birds, and other less predictable creatures. See section 3.5.4 for all of the different triggering modes for these sensors. Receiver A includes a tri‐colored LED (mounted on the back) to indicate when each receiver is lined up correctly. See section 5.4 for details. The infrared version of this sensor has the advantage of having an invisible beam (unlike the red laser light). The disadvantage of IR is the beam size is larger, making it difficult to capture extremely small objects like insects. A lens (included as shown above) on the IR transmitters will yield a range in excess of six feet. For short distances the lens should be removed. The lens focuses the IR beam and if it remains attached at short distances it will saturate the receiver with IR light reducing its sensitivity. This may cause the receiver to not detect small objects crossing the beam. The transmitters have an adjustable power‐level. The power‐level should be set to the lowest possible that still activates the LED. This will improve the sensors sensitivity. Cross‐Beam Infrared Transmitter/Receiver Specifications ...
- Page 32 Cross‐Beam Laser Transmitter/Receiver [XBS_L01] • Two transmitters and two receivers • 100+ feet (30.5 m) laser range • Dual‐axis triggering • Conditional triggering (A followed by B, but within a certain time) • Optional tripod mount available for sensors • LED indicator for incident light on receivers • Two 6 ft 3.5mm and two 6 ft 2.5 mm cables included. The laser cross‐beam sensor provides the same feature set as the IR sensor set above. It has the benefit of additional range when compared to the infrared version. Lasers provide pin‐point accuracy for applications that require triggering on small objects. Diffusers are included for the two receivers. The diffusers make aligning the sensors much easier. The lasers have a focusable beam that can be adjusted for the size of the object you are trying to capture. Cross‐Beam Laser Transmitter/Receiver Specifications Min Typical Max Units Input Voltage 4.0 4.5 4.7 V Output Voltage Vin ...
- Page 33 [RCVR_02] Features: • 6 ft ( 1.8 m) IR range • 100+ ft (30.5 m) laser range • May be used with Laser or IR transmitters • Available with oak base or ¼” tripod mount • May be used to measure flash duration • Includes laser diffuser • 6 ft 3.5mm cable included • 4.06” x 2.47” x 1.37” (10.31cm x This sensor is the receiver half of the Beam Sensor. It can 6.27cm x 3.73cm) be used with an IR or Laser transmitter. Use with LSR_TMTR_01, shown below. Why would you need a replacement infrared sensor? The most likely answer: Ballistics photography gone wrong. We wouldn’t admit to accidentally shooting a sensor either. Your secret is safe with us. When using the laser transmitter the diffuser will prevent small movements of the receiver or the “speckle” in a laser beam from falsely triggering StopShot. What’s “speckle”? It’s a phenomenon that occurs in lasers when a correlated light beam experiences interference from waves with different phases. This is often noticed when shining a laser on a surface – It seems to shift and twinkle on its own. Imperfections in the surface can cause the laser light to slightly phase shift resulting in a variance in amplitude. The diffuser also reduces the alignment precision between the transmitter and receiver. ...
- Page 34 Laser Transmitter ‐ [LSR_TMTR_01] Laser Transmitter Features: • Long Range (100+ ft) • Available with oak base or ¼” tripod mount (optional bases available) • 2.5mm Power Jack • Battery Pack available for Power • Focusable beam (hand‐adjusted) • 5mW laser Class II Laser Beam • 960 nm wavelength (red) • 13mA @ 4.5V • 6 ft 2.5mm cable included • 4.06” x 3.40” x 1.37” (10.31cm x 8.64cm x 3.73cm) Never look into the laser beam, shine it at someone else, or reflect it off a surface that could bounce back into your (or others) eyes. Laser light damages eyes – which would defeat the purpose of photography. The laser transmitter is very effective at aiding in the capture of small or very high speed objects. It is also a great way to increase the range between the transmitter and receiver. This makes it very suitable for capturing elusive wildlife such as deer – not that they are small or very high speed. The laser transmitter contains an adjustable lens to focus the beam. When triggering on extremely small objects it is desirable to focus the laser to a narrow beam. Detection of 1 – 2 mm objects is possible. Laser Transmitter Specifications ...
- Page 35 Microphone ‐ [MIC01] The microphone is ideal for impact triggers at close range (a football being kicked or a wine‐glass dropping onto a floor). Its trigger sensitivity can be adjusted by the gain control and can detect very faint sounds such as the pop of a soap bubble. This is a condenser microphone and has a 3.5mm mono connector. ...
- Page 36 Battery Pack for Laser/IR Transmitter ‐ [BAT_PAK_01] Battery Pack Features: • Holds 3 AA Batteries (Alkaline recommended) • On/off switch • Includes a 3ft cable with a 2.5mm plug (fits Laser and IR transmitters) • 130+ hour life for laser transmitters • 50+ hour life Infrared transmitters • 2.72” x 1.90” x 0.72” (6.90cm x 4.83cm x 1.83cm) • Short‐circuit battery protection Make sure this battery pack is switched off when not connected to a laser sensor. If the 2.5mm plug is shorted out excessive heat may be generated and battery life with be greatly diminished. ...
- Page 37 Battery Pack for StopShot ‐ [BAT_PAK_02] Battery Pack Features: • Holds 8 AA Batteries (not included) • Includes a 16” cable with a 2.1mm plug • 24+ hour life for StopShot using 2450mAh NiMH batteries • 2.83” x 2.57” x 1.46” (71.8mm x 65.28mm x 37.08mm) ...
- Page 38 Hot Shoe Adapter ‐ [HS01] Features: • Standard hot shoe with PC connector • PC connector to RCA adapter included • ¼” tripod mount on bottom This adapter lets you connect a flash with a hot shoe to the StopShot module. You will need a RCA to RCA patch cord to complete the connection. The StopShot deluxe kit includes one RCA cable. This hot shoe features a switch to test fire the flash that is connected to it. If everything is connected properly and the button on the hot shoe is pressed, the flash should fire and the corresponding LED on StopShot should be illuminated for the duration of the button press. The hot shoe also has two PC connections on it so additional flashes can be daisy chained. ...
- Page 39 Water Valve Assembly ‐ [WVA01] • Fully controllable via StopShot • 12V DC Power • 3/8” barb • Mounting screw holes Great for water drop photos. This valve assembly can be connected directly to StopShot to create precision controlled drops of water. This valve was used to create many of the "drop crashing into drop" photos in our gallery. It includes a power supply and the cable assembly required to connect it to StopShot. This valve has a very good response time. When being driven by StopShot this valve is capable of delivering a drop of water with a 30mS pulse. StopShot may be configured to put virtually any delay between drops giving you maximum flexibility when trying to capture water drop photos. The barbs on this valve are 3/8 inch, and it is powered by 12VDC (supply included). 3/8 inch inside‐ diameter (3/8” ID) clear tubing is available from your local hardware store. This valve is also available without the power supply. See the StopShot Shop on our website for details. ...
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Page 40: Connections & Cables
5. Connections & Cables One of the design goals of StopShot was to make it simple to add cable extensions and do custom wiring. Nothing is more frustrating than buying a product and finding out that it uses over‐priced proprietary cables. All StopShot cables are available at your favorite audio/video equipment supply store. We provide the connection diagrams below so that you have the option of making custom cables or sensors. If you have any questions, please contact us at support@cognisys‐inc.com. 5.1 Sensor/Mic inputs The beam sensors and microphone input all use 3.5mm stereo cables. If the supplied cable does not meet your needs you may purchase a 3.5mm stereo “headphone” extension at any audio store. The microphone input has a 2.2kΩ pull‐up to 4.5 volts internally to StopShot to bias the microphone. This connection is on the tip of the 3.5mm microphone plug. The other conductor (the shaft) is ground. See Figure 11 below for a connection diagram. Figure 11 ‐ Microphone Connection The beam sensor input must also provide power to the sensors. The tip provides 4.5 volts, the center conductor is the signal input, and the remaining conductor is ground. See Figure 12 below for a connection diagram. Figure 12 ‐ Sensor Connection 5.2 Trigger Outputs All the trigger outputs use standard “RCA” jacks. RCA extensions come in all different types, one end as male and the other as female. There are mono (single) extensions which are typically used for video. Stereo/dual extensions are usually for extending audio connections. ... -
Page 41: Activating Relays
There are triple extensions for extending audio and video equipment. You also have the option of buying standard RCA cables and using a coupler adapter to connect two male/male cables together. As with all RCA jacks the outside connector is ground. StopShot outputs are “Low Side Drivers” (switches in ground). This means that when a trigger output fires, it connects the center conductor of the RCA jack to the outside connector (ground) to draw current through the center conductor. See Figure 13 below for a wiring diagram for the RCA connectors. Figure 13 ‐ RCA connector 5.3 Activating Relays Some applications require activating a relay to enable (or disable) a “load”. Relays allow StopShot to turn on/off a variety of AC and DC devices. CAUTION: Care should be taken when wiring up StopShot to control AC or high‐voltage DC as a mistake in wiring the relay could cause damage to StopShot and other connected devices. See Figure 14 below as an example of wiring StopShot to control a 12V DC relay. ... -
Page 42: Cross - Beam Sensor
Figure 14 ‐ Wiring an external relay 5.4 Crossbeam Sensor Both Cross‐Beam Receivers are digital sensors. Changing the gain control will not impact the sensitivity of either receiver. The gain should be left in the middle position when using the cross beam sensor set. Receiver A is the sensor with 3 jacks and a LED; it is connected directly to StopShot. Receiver B is the secondary sensor; it has two jacks and is connected to Receiver A. The cross beam sensors are wired as shown below in Figure 15 ‐ Cross‐beam connections. Just match the colors. No damage can be done to StopShot or any sensor by connecting them incorrectly. Receiver B can also be connected directly to StopShot if a simple Beam sensor is desired. ... -
Page 43: Figure 15 - Cross-Beam Connections
Figure 15 ‐ Cross‐beam connections The cross beam sensor has a tri‐colored LED mounted in it to show the status of the sensor. The modes are as follows: Red – IR or laser light is incident on sensor A or beam B is broken Green – IR or laser light is incident on sensor B or beam A is broken Orange – IR or laser light is incident on both sensors If any of the above lights are on without the corresponding transmitters shining on them there is too much ambient light reaching the sensor. The sensors were designed to be used outdoors but direct sunlight incident on the receiver diodes will cause them to turn on. There is a design tradeoff between good range and ambient light triggering the sensor. To keep response time as fast as possible our sensors do not modulate the infrared transmitters. Modulating a sensor at 20 kHz would add at least 50 microseconds to the response time. ... -
Page 44: Trouble Triggering
When using IR transmitters do not use the diffuser as it will attenuate the light too much and seriously degrade range. Figure 16 ‐ Laser Diffuser Below are some general guidelines for using the sensors: The sensors work by changes in light produced by objects passing between the transmitter (source) and the sensor (receiver). The object you are trying to capture essentially has to cast a shadow over the small light sensing pin diode internal to the sensor. The diode can be seen inside the sensor (a small black shiny part). If you are trying to capture small objects it is best if the object passes between the receiver and the transmitter as close to the receiver as possible. If you are having trouble triggering on extremely small objects (i.e. 1 ‐2 mm) it may be necessary to place a small aperture in front of the sensor. Make the aperture as small as possible while maintaining the sensor active light on. The diameter of the aperture will need to be large enough to let enough light reach the photodiode to turn on the photodiode. This diameter will be a function of distance to the transmitter. This technique is more useful for the IR sensor; the laser beam is already very narrow. If using the laser beams be sure to adjust the beam width for your application using the focusing lens and the end of the transmitters. When using the infra‐red transmitters for cross‐beam applications the power‐level of the transmitter should be adjusted to the minimum that illuminates the LED indicator for that beam. The power‐level is adjusted by turning the knob. Clockwise increases transmitter power while counter‐clockwise decreases power. Operating the transmitters with too much power will degrade the sensitivity of the receiver. 6. Trouble Triggering If there is an idea for a picture that you want to take but can’t quite figure out how to make it happen, e‐mail us at support@cognisys‐inc.com. It doesn’t matter how bizarre it is – we might be able to come up with a way to make it happen. If it requires a new feature in StopShot and you are the first one to request it, we’ll reprogram your module for free! Just be sure to send us your final picture – we like to see how our product is being used. ... -
Page 45: Setup Examples (Getting The Ultimate Shot)
7. Setup examples (getting the ultimate shot) 7.1 Water Drops Water drops are extremely repeatable and fairly easy to set up. The drops can be released by something as simple as an eye‐dropper, but for maximum repeatability, we’d recommend using a solenoid‐controlled valve. Here is the setup we use: Water valve IR Sensor Flash with Hot Product Shoe placement for Canon StopShot The beam sensor is set up beneath the water drop, and then the delay in StopShot is set appropriately to fire the flash at the desired moment. You can even let two drops fall, the second colliding with the rebound of the first. The resulting picture: ... - Page 46 The water drop falls into a small amount of water inside a glass container. The image beneath the glass is distorted from the waves in the water and also reflected in the drop itself. The depth of the water also affects the rebound and ripple. Try variations – the possible pictures are limitless. Most importantly: Have fun! With free‐falling objects (including water drops), you can use the following formula to estimate the distance travelled, or solving for “t”, the time required from the beam sensor to impact. x = ½ at x = the distance traveled a = acceleration constant of gravity, 32 ft/second for a result in feet, or 9.8 m/second for meters. t = time in seconds So if the water drop will fall 16 inches to the surface of the water: 16 / 12 = 1.33 feet 1.33 = ½ (32) t = 0.083125 ‐‐ divide 1.33 by (½ * 32) to get t by itself t = 0.2883 ‐‐ Take the square root of 0.083125 ...
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Page 47: Water-Drop How
So for a water drop to fall 16 inches, it will take 288.3 milliseconds. The purists out there will note that we’re not accounting for air resistance. We’ll just call it negligible for this distance. 7.1.1 Waterdrop Howto Step 1: Decent water drops The first step is getting consistent pictures of single water drops, we’ll get to drop collision pictures in a bit. For best results make sure there is at least 12” of water above the valve. This will give you the water pressure that you’ll need for proper operation of the valve. The setup: Lights on, no camera, just eyeballs. First we want to start out with StopShot in a known state; this can be accomplished by pressing the DOWN button and power up the module. Doing this will restore all of the default settings but it will not delete any setups you have saved. Now that StopShot is in a known state we need to put it into Sequential Mode. To do this press and hold the CONFIG button for 2 seconds, press the select button until the cursor is next to “TMode”. Use the up/down buttons until “Sequential” is displayed. Press the CONFIG button to exit to the main screen. Next we need to get the valve set up to trigger on a button press. So with the cursor next to “Trigger 1”, press and release the config button. This will let you change the settings of just that one output. The display should say “T1 Mode: Trigger”. Use the up/down buttons until it changes to “Manual”. Now press the SELECT button to move the cursor down to “Pulse”. Now use the DOWN button to adjust this to the range of 30‐50ms. This is the time that the valve will be open to allow water to flow. Adjust “Toff” to 40mS. This is the time between valve openings for multiple drops. For now leave “# Pulse” set to “1”. “# Pulse” defines the number of drops or pulses that will be generated. No drop‐on‐drop action yet! Now make sure that the water‐valve is plugged into the “Trigger 1” output of StopShot and that the valve’s AC adapter is plugged into the wall. If the cursor is not next to the “Manual 1” line, press the SELECT button until it is. To activate the manual trigger you need to have the cursor next to the “Manual 1” line. Go ahead and press the UP or DOWN button and watch the valve. Press it a few times (If there is any air in the line it needs to work out). So take a look for a water drop. Did you get one? If so, do it 20 times in a row. If you get 20 water‐drops then Step 1 is complete! If you don’t always get a drop when you press the button then the “Pulse” time is too short – the valve needs to be open a bit longer. Increase the “Pulse” time by 2‐5ms and try again (some fine tuning required for a given fluid at a given pressure). After adjusting the “Pulse” time you need to hit the CONFIG button to get you back to the main screen. If on some button presses you get more than one drop (or a stream) then you should bump it down. When the timing is dialed in you should be able to get a single drop every time. This is very important for getting consistent drop collisions later. You need to make sure that for every button ... - Page 48 “Manual 1”, and press the UP or DOWN button to release the drop of water. At this point you should be able to see the drop of water suspended when the flash fires. If the flash does not fire then something is not right with the setup. Double check the flash and make sure it is turned on, not in sleep mode, and that the wiring is properly connected. If you are not seeing the flash fire, you can verify that StopShot is seeing the drop cross the sensor by looking at the display. If there is a “*” next to “Manual 1” that means that in the sequence that item is complete. For this scenario that is bad because it indicates that “Trigger 2” is still waiting for an input. Check the alignment of the water‐drop and the beam sensor. Also check that the transmit power on the IR transmitter is turned down to low (that’s fully counter‐clockwise). You do not need the IR lens for water‐drop applications. You can double‐check the beam sensor is functioning (if there is a “*” next to “Manual 1” indicating it is waiting for the next step which – the beam to be broken) by swinging your finger through the beam. If that completes the sequence and the flash doesn’t fire then something is wrong with the flash setup. If it does fire the flash then there is an alignment issue with the water valve. If the flash fires when dropping the water and you don’t see anything that likely means the delay is not set properly. The flash firing means the water‐ drop was detected. If you’re not seeing it then it’s probably already hit or is outside the flash range. At this point you should have it set so every time you press the UP/DOWN button that not only a drop of water comes out but the flash fires reliably. Adjusting the delay for “Trigger 2” will change the vertical position of the water drop. Step 3: Camera Control Now it is time to get the camera dialed in. You’ll need to be in manual focus. You already know the approximate position of the water drop from the previous steps. Use a pencil or something else small at the same position of the water drop to adjust the focus (and set the depth of field as needed). Set the camera for a bulb mode. In the dark hold the shutter button on the camera and press the UP or DOWN button to release the water drop, and now you should have a picture of a single water drop. At this point your photos should be very consistent from one picture to the next. Step 4: Drop‐on‐drop Now it is time to get a picture of a drop collision. Multi‐drop is really just going back into step 1 and adjusting two parameters. So with the cursor on “Manual 1”, press the CONFIG button and adjust the “# Pulse” to “2”. The trickery comes into play with adjusting “Toff”. This is the time between releasing the water‐drops. Shorter durations means the drops will be closer together, so the rebounding drop will collide with the falling drop very low in the water. Longer durations will have the drop falling into a void created when the first drop is sucked back into the pool from surface tension. Go ahead and leave this ...
- Page 49 Step 5: Synchronizing the camera So that wraps up using the long exposure of the camera. The next task: Camera synchronization. At this point you’re probably sick of going from StopShot to the camera, back to StopShot, and back to the camera. In a few setting changes everything controlled by one button press (more time spent on the pictures and less time going back and forth). First, you will need to physically move the connector of the flash from the Trigger 2 output to the Trigger 3 output. Plug the shutter cable into the Trigger 2 output (you did buy a shutter cable, right?). Now it gets kind of tricky. Each camera and model has a shutter lag associated with it. That is the time that it takes from when you tell your camera to take a picture to when it actually does. This lag needs to get subtracted from the delay you had previously used. So if the delay you had entered for “Trigger 2” previously was 150ms and your camera’s shutter lag is 50ms, then you would want to put in 100ms (150 – 50 = 100ms by using the UP/DOWN buttons). If your camera is set to “Bulb” mode, it will leave the shutter open for the duration that StopShot tells it to. Now that the camera is connected to the Trigger 2 output you can press the CONFIG button when the cursor is on “Trigger 2”. The amount of time that StopShot will keep the output active (holding the shutter open) is the “Pulse” setting. In “Bulb” mode, this will control the duration of the exposure. You may also set the exposure time in your camera – provided you know the shutter lag for your camera. Next we need to configure “Trigger 3” for your flash. Press the SELECT button so the cursor is on “Trigger 3”, and then press the CONFIG button. Press the UP or DOWN button to change the “Mode:” to “Delay”. Press the SELECT button until the cursor is on the “Sync” line. Press the UP or DOWN button to turn this to “On”. What this does is tell this output to synchronize with the previous output (“Trigger 2”). That means when the previous output first turns on, this output will start. See section 3.6.4 for more details regarding the synchronization feature. Press the CONFIG button to get back to the main screen. Almost there! Now the screen should show “Delay 3:” Go ahead and adjust this value now. This output will be from when the camera is told to open until the flash fires. So this delay could be very short – but it has to be at least your shutter lag duration. Now when you adjust the delay for “Trigger 2” the shutter lag/flash timing will stay the same. You’ll only be adjusting the position of the water‐drop. If you don’t see the water drop in the picture then you may not have the proper shutter lag value. Increase it until you reliably see an exposed picture. There are other settings that would work just as well. StopShot is extremely configurable. ...
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Page 50: Ballistics - Tips And Tricks
7.2 Ballistics – Tips and Tricks First we would recommend using the IR light curtain instead of the microphone. There is a surprisingly large amount of variability in timing when using audio (at 1,200 feet per second – a millisecond goes a long ways!). The laser sensors can be complicated to properly align since the beam size is extremely small. Use or make a large card‐board box to contain whatever you plan to shoot. Cut a small hole for your camera, but protect the lens with a piece of Plexiglas. The box serves a couple of purposes, the first is to keep out unwanted light and the second is to contain the mess from whatever you are shooting. The flash should also be protected. Always be aware of your surroundings and who or what is down range. Safety first! Using a reflective surface on the inside of the box will improve the lighting conditions of the target object. The backdrop for the object will vary depending on what is being shot. If there is a spray of moisture (fruit, vegetables, etc), a black background may be required to see the droplets. For Ballistics shots like this we built a fixture for the rifle. A fixture makes both hitting the target and triggering StopShot very repeatable. This picture was taken with a Xenon flash (duration = 2uS). Figure 17 ‐ A Sucker being Shot with a .22 Caliber Rifle WARNING: Always use a remote trigger for your camera (wired or wireless) when shooting ballistics photos. Never stand down range from any loaded gun. Seriously. We like repeat customers. ... -
Page 51: Animated Time-Lapse Movies
8. Animated TimeLapse movies By using the “Time Lapse” global configuration you can generate a sequence of pictures. There are some freely available programs that can convert a series of JPEG pictures into an MPEG or AVI movie. For information on these programs and the latest links to the software, please visit our website at: http://www.cognisys‐inc.com. When taking a series of time‐lapse pictures, you may or may not want to disable the auto‐ exposure feature of your camera. If capturing a sunset, you may want the light to progressively dwindle into nothing, instead of the camera increasing the exposure time to compensate for the low‐light. Some experimentation may be required. ... -
Page 52: Troubleshooting
Cause Solution Display is not lit. Power cord is not inserted Insert the power cord properly into the power jack. properly into the power jack. It needs to be fully seated in the connector. Power cord is not plugged into Plug power adapter into the the wall. wall. Wrong AC/DC adapter used. Be sure to use the AC/DC adapter that was included with your StopShot module. Backlighting is turned down If the backlighting was turned too low. down to use in the dark, you may not be able to see it in bright light. In a room with less light, adjust the backlighting per the manual. Trigger LED’s are constantly The wrong timer mode is Please verify that the timers on or flashing. selected. are being used correctly. If you need to reset the settings to the factory default, see the section “Global Reset”. ... -
Page 53: Specifications
Specifications Specifications are intended for reference only. The design may be modified to improve features or functionality without notice. • 4x20 LCD Display with adjustable blue backlighting. • Fully programmable 3 channel intervalometer. • All outputs are open drain (Can be used for Flash Trigger or Shutter Trigger). •... -
Page 54: Warranty
CONSEQUENTIAL DAMAGES, SO THE ABOVE LIMITATIONS MAY NOT APPLY TO YOU. Cognisys retains the exclusive right to repair or replace the product or offer a full refund of the purchase price at its sole discretion. SUCH REMEDY SHALL BE YOUR SOLE AND EXCLUSIVE REMEDY FOR ANY BREACH OF WARRANTY. -
Page 55: Glossary
Glossary Term Description # Pulse Number of output pulses that a trigger output will generate. Ballist Ballistics mode. This will measure the time it takes to cross two sensors and fire the output a configurable distance multiplier (“Dist Mult”) from the last sensor. Blank The blanking time is the duration where StopShot will ignore the input. This may be useful to ignore second drops, transients, or flashes. Dist Mult For ballistics mode, this is the distance multiplier used for when it should fire the trigger output. If the sensors are six inches apart and “Dist Mult” is set to four, the output would fire when the object is 24 inches from the last sensor. F Duration Flash Duration. A global triggering mode. This will measure the duration of a flash provided it is less than 3 ms. Gain Amount of amplification applied. Incrm Abbreviation for increment. The increment value will be added to the delay setting every time there is an input event. Independent A global triggering mode where all the triggers operate independent from each other. Latched When an output stays in a given state (on or off). LCD Backlight The backlighting for the LCD allows the text to be visible. It is adjustable so that for low‐light conditions it won’t ruin long exposures. Load Defaults Load the factory defaults for all the settings. ms Abbreviation for milliseconds. A thousandth of a second (1/1000 seconds). Pwr Off Power‐Off. This lets you choose which trigger output will disable the sensor power. The moment an event is detected the power will be turned off. This ... - Page 56 Flash measurement, etc... Toff The time off between output pulses. Trigger When one of the three channels is configured as “Trigger”, it will fire the output after a configurable delay after seeing an input. Trigger Output One of the three outputs of StopShot. The Red LED’s correspond to the three outputs. us Abbreviation for microseconds. A millionth of a second. Waiting Displayed when an output is configured for “Manual” mode. Pressing the UP or DOWN buttons will start the manual output, changing the displayed text to “Active”. X‐Beam Short for “cross‐beam”. Two beams are set in an X formation that allows for pin‐point detection. StopShot’s cross‐beams may also be used in a staggered method so that beams have to be crossed in a specific direction. XBS A Cross‐beam sensor A. StopShot will fire when only the “A” sensor is crossed. XBS A&B Cross‐beam sensors A and B. StopShot will fire only when both sensors are crossed simultaneously. XBS A|B Cross‐beam sensors A or B. StopShot will fire when either A or B are crossed. XBS A‐>B Cross‐beam sensor A followed by B. StopShot will only fire when A is triggered followed by B. A timeout is selectable to reset this mode should B not happen within a reasonable amount of time. XBS B Cross‐beam sensor B. StopShot will fire when only the “B” sensor is crossed. XBS B‐>A Cross‐beam sensor B followed by A. StopShot will only fire when B is triggered followed by A. A timeout is selectable to reset this mode should A not happen within a reasonable amount of time. ...
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Page 57: Revision History
Revision History Revision Date Change 1.0 06/02/08 Initial Release 1.1 11/21/08 Updated product portfolio and additional sensor modes. 1.2 12/19/08 Added X‐beam A/B mode, sequential mode timeout, and StopShot battery pack. TX power switch added to IR beam sensor. 1.3 02/17/09 StopShot 1.0.06 SW features: Ballistics mode Sensor Power Disable Adjustable infrared transmitter power for single and x‐beam. 1.4 03/09/09 StopShot 1.0.07 SW features: User settings may be stored into 10 locations. Output pulse setting may be “latched on” in sequential mode StopShot 1.1.00 SW features: Delay allowed as first trigger mode in sequential operation 1.5 3/20/09 Multiple pulses added to all timer modes. 1.6 5/29/09 Water‐drop “How‐To” added. ...
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Questions and answers
I have a Stop Shot which I last used to measure shutter trip delay ( shutter lag ) I was measuring the delay of home made shutters, the fastest being 2.2 ms. I want to do some more testing but can't find the instructions for this set up. Please help, I would love to print it.