Instruction manual
Table Of Contents
- Introduction
- Declarations of conformity
- Safety instructions
- PIKE types and highlights
- FireWire
- Overview
- FireWire in detail
- Serial bus
- FireWire connection capabilities
- Capabilities of 1394a (FireWire 400)
- Capabilities of 1394b (FireWire 800)
- Compatibility between 1394a and 1394b
- Image transfer via 1394a and 1394b
- 1394b bandwidths
- FireWire Plug & play capabilities
- FireWire hot plug precautions
- Operating system support
- 1394a/b comparison
- System components
- Specifications
- Camera dimensions
- PIKE standard housing (2 x 1394b copper)
- PIKE (1394b: 1 x GOF, 1 x copper)
- Tripod adapter
- Pike W90 (2 x 1394b copper)
- Pike W90 (1394b: 1 x GOF, 1 x copper)
- Pike W90 S90 (2 x 1394b copper)
- Pike W90 S90 (1394b: 1 x GOF, 1 x copper)
- Pike W270 (2 x 1394b copper)
- Pike W270 (1394b: 1 x GOF, 1 x copper)
- Pike W270 S90 (2 x 1394b copper)
- Pike W270 S90 (1394b: 1 x GOF, 1 x copper)
- Cross section: C-Mount (VGA size filter)
- Cross section: C-Mount (large filter)
- Adjustment of C-Mount
- F-Mount, K-Mount, M39-Mount
- Camera interfaces
- Description of the data path
- Block diagrams of the cameras
- Sensor
- Channel balance
- White balance
- Auto shutter
- Auto gain
- Manual gain
- Brightness (black level or offset)
- Horizontal mirror function
- Shading correction
- Look-up table (LUT) and gamma function
- Binning (b/w models)
- Sub-sampling
- High SNR mode (High Signal Noise Ratio)
- Frame memory and deferred image transport
- Color interpolation (BAYER demosaicing)
- Sharpness
- Hue and saturation
- Color correction
- Color conversion (RGB ‡ YUV)
- Bulk Trigger
- Level Trigger
- Serial interface
- Controlling image capture
- Video formats, modes and bandwidth
- How does bandwidth affect the frame rate?
- Configuration of the camera
- Camera_Status_Register
- Configuration ROM
- Implemented registers
- Camera initialize register
- Inquiry register for video format
- Inquiry register for video mode
- Inquiry register for video frame rate and base address
- Inquiry register for basic function
- Inquiry register for feature presence
- Inquiry register for feature elements
- Inquiry register for absolute value CSR offset address
- Status and control register for feature
- Feature control error status register
- Video mode control and status registers for Format_7
- Advanced features
- Version information inquiry
- Advanced feature inquiry
- Camera status
- Maximum resolution
- Time base
- Extended shutter
- Test images
- Look-up tables (LUT)
- Shading correction
- Deferred image transport
- Frame information
- Input/output pin control
- Delayed Integration enable
- Auto shutter control
- Auto gain control
- Autofunction AOI
- Color correction
- Trigger delay
- Mirror image
- AFE channel compensation (channel balance)
- Soft Reset
- High SNR mode (High Signal Noise Ratio)
- User profiles
- GPDATA_BUFFER
- Firmware update
- Glossary
- Index
Glossary
PIKE Technical Manual V3.1.0
253
Dark current Dark current is the accumulation of electrons within a CCD or CMOS image
sensor that are generated thermally rather than by light. This is a form of
noise that is most problematic in low light applications requiring long
exposure times.
Dark noise Dark noise is the statistical variation of the dark current, equal to the
square root of the dark current. Dark current can be subtracted from an
image, while dark noise remains. Also called dark current noise.
dB abbr. of decibel
see decibel
DCAM DCAM = digital camera specification
DCAM or IIDC is a software interface standard for communicating with cam-
eras over FireWire. It is a standardized set of registers etc. If a camera is
DCAM compliant then its control registers and data structures comply with
the DCAM spec. Such a camera can be truly plug & play in a way that other
cameras are not. Recent specifications are IIDC V1.30 and IIDC V1.31.
Decibel Decibel (abbr. dB) is a measurement unit of dynamic range.
Depth of field Depth of field refers to the in-focus region of an imaging system. When
using a lens, especially in close proximity, objects at and near a certain
distance will be in focus whereas other objects in the field of view that are
closer or farther away will appear fuzzy, or out of focus. The depth of the
region that appears in focus is called the depth of field. Generally speak-
ing, the depth of field will be large if the lens aperture is small (large f-
number), and the depth of field will be small with a wide aperture (small
f-number).
Digital camera A digital camera is an electronic device to transform images into electronic
data. Modern digital cameras are typically multifunctional and the same
device can take photographs, video, and/or sound.
Digital photography Digital photography uses an electronic sensor to record the image as a
piece of electronic data.
There are two main types of sensors:
• charge-coupled device (CCD)
•CMOS semiconductor
There are also two main types of sensor mechanisms:
• Area array
• Linear array (very rare, only limited to the highest-end)
An area array sensor reads the entire image plane at once, whereas a linear
array sensor works more like a flatbed scanner.