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Baumer Txg14cf-p

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Technical Data TXG14cf-P Digital Color Progressive Scan Camera System: Gigabit Ethernet Art. No: 11008721 (OD108723) Baumer TXG14cf-P Revision 2.1 • • • • • • • • • • • • • • • • • • • Gigabit Ethernet progressive scan CCD camera 1384 x 1036 pixel Up to 30 full frames per second GigE Vision® standard compliant Supported Power over Ethernet On board integrated color processor for high quality color calculation Outstanding image quality High sensitivity and dynamic range High quality slow scan mode for lowest readout noise True partial scan function (ROI) for increased frame rates External synchronization via industrial compliant process interface (trigger / flash) Integrated supplementary function for flexible integration Jumbo frames supported Integrated 32 MByte RAM for temporarily image data buffering Camera parameter programmable in real-time Ultra compact and lightweight aluminum housing Standard RJ45 connector Screw-lock type industrial connector Baumer-GAPI: Flexible, generic software interface for Windows / Linux 1. Overview Model Name Sensor Shutter / readout mode Number of pixel Scan area Pixel size Color filter Operation modes Trigger mode Free running mode Signal processing Pixel clock A/D converter Exposure control (texp) Gain control Offset (black level) Image data buffer TXG14cf 2/3“ interline progressive scan CCD Exview technology global shutter / progressive scan readout 1384 x 1036 8.93 mm x 6.68 mm 6.45 µm x 6.45 µm RGB Bayer mosaic yes, overlapped operation yes, overlapped operation real-time software programmable 60 MHz fast scan / 30 MHz high quality (HQ) scan 14 bit total: 4 µsec .. 60 sec step: 1 µsec 0 .. 20 dB 0 .. 1023 LSB (14 bit) max. 3 images Technical specifications subject to change Baumer Optronic GmbH Last change: 27.01.2011 Badstrasse 30 DE-01454 Radeberg, Germany Phone +49 (0)3528 4386 0 Page 1 / 12 Fax +49 (0)3528 4386 86 www.baumeroptronic.com Version: TDS_TXG14cf-P_v20e_101220 Technical Data TXG14cf-P Image acquisition Camera image format modes Format (pixel) GenCam standard Format ID Pixel format BayerRG8 BayerRG12 Mono8 YUV411 Packed YUV422 Packed **) YUV444 Packed RGB8 Packed BGR8 Packed BayerRG8 BayerRG12 Mono8 YUV411 Packed YUV422 Packed **) YUV444 Packed RGB8 Packed BGR8 Packed Full frame HQ slow 1384 x 1036 Vendor specific 00 Full frame fast 1384 x 1036 yes 01 Standard features Image size controls Pixel format Test image selector Partial scan Analog controls Gain Black Level (Off set) Gamma Acquisition and Trigger Acquisition mode Acquisition frame rate Trigger source Trigger delay Sequencer Digital I/O Lines Line source (outputs only) Line debouncer Event Generation Events Event Notification Counters and Timers Framecounter Timer Pixel clock MHz 30 Frames per sec. *) 15 67 msec 60 30 33.5 msec treadout BayerRG8, BayerRG12, Mono8, YUV411 Packed, YUV422 Packed, YUV444 Packed, RGB8 Packed, BGR8 Packed yes, in all modes Off, GreyHorizontalRamp, GreyVerticalRamp, HorizontalLineMoving, VerticalLineMoving HorizontalAndVerticalLineMoving yes, format freely programmable in all modes yes yes no Continuous yes, ON / OFF (only in freerunning mode) 0 .. 143 Hz, step: 0.01 Hz HardwareTrigger (Line0), SoftwareTrigger, CommandTrigger (ActionCommand), All or Off 0 .. 2 sec, 512 trigger can be tracked, step: 1 µsec no Input: Line0, Output: Line1 Line1: Off, ExposureActive, Timer1, ReadoutActive, User0, TriggerReady, TriggerOverlapped, TriggerSkipped yes, low and high signal separately selectable 0 .. 5 msec step: 1 µsec GigEVisionError, Heartbeattimeout, EventLost, Line0RisingEdge, Line0FallingEdge, Line1RisingEdge, Line1FallingEdge, ExposureStart, ExposureEnd, FrameStart, FrameEnd, TriggerReady, TriggerOverlapped, TriggerSkipped yes, ON / OFF 32 yes, 2 can be set by user yes, TimerSelector: Timer1 TimerTriggerSource: Off, Input: Line0, SoftwareTrigger, CommandTrigger (ActionCommand), ExposureStart, ExposureEnd, FrameStart, FrameEnd, TriggerSkipped TimerDelay: 0 µsec .. 2 sec, step: 1 µsec TimerDuration: 10 µsec .. 2 sec, step: 1 µsec Technical specifications subject to change Baumer Optronic GmbH Last change: 27.01.2011 Badstrasse 30 DE-01454 Radeberg, Germany Phone +49 (0)3528 4386 0 Page 2 / 12 Fax +49 (0)3528 4386 86 www.baumeroptronic.com Version: TDS_TXG14cf-P_v20e_101220 Technical Data TXG14cf-P LUT Controls LUT selector Defect pixel correction (custom) Defect pixel list (custom) GigEVisionTransportLayer PayLoadsize TransmissionDelay (custom) UserSets User set selector UserSetDefaultSelector Advanced features Time stamp function Asynchronous message channel Concatenation function User defined identifier ActionCommand DeviceTemperature Data quality Readout noise Dynamic range Optical interface Optical filter Process interface functions Async. Trigger Exposure Active (External flash sync) User Output Timer Software reset Asynchronous reset Image info header Electrical interface Data / control Power Power consumption Digital input Digital output LED no yes, ON / OFF yes, max. 256 pixel coordinates (x, y) can be stored 4 Byte .. 4.301.744 Byte 32 0 .. 2 -1 ticks Default (factory settings / read only) UserSet1, UserSet2, UserSet3 (read and write) yes, define the start up “UserSet” yes, 64 bit tick = 32 nsec yes yes yes, user programmable permanent identifier yes, ID 0 = Trigger no at 20 °C, gain = 1, exposure time = 32 msec, full frame mode, slow scan σ < 0.5 LSB (8 bit) typical typical > 54 dB C-Mount on request: CS-Mount Hoya E-CM500S on request: dust protection, daylight filter or no filter yes, trigger mode operation, “Off”, “software trigger”, “hardware trigger”, “command trigger” or “all” separately selectable (overtriggered signals and trigger signals during the readout time will be notified in the received image header) yes, delay_value (tdelay flash) ≤ 4 µsec, duration_value (tduration): slow mode = texp + 62 µsec fast mode = texp + 31 µsec yes, ON / OFF yes, Timer1 yes, delay up to 102 msec Full frame slow delay up to 14.2 msec fast 7.1 msec yes standard single cable 1000 Base-T, Cat6 recommended / minimum Cat5e option: screw lock type connector VCC: Power over Ethernet (PoE), Class 0 device (via 1000 Base-T cable) VCC: 20 VDC .. 57 VDC ***) I: 370 mA .. 102 mA approx. 6.6 Watt Line 0: trigger signal, opto decoupled UIN(low) = 0 .. 4.5 VDC, UIN(high) = 11 .. 30 VDC IIN = 6 .. 10 mA / 7 mA typical rising edge (invert = false) ****) min. impulse length (tmin): 2 µsec trigger delay out of treadout (tdelay trigger): 5 µsec max. trigger delay during treadout (tdelay trigger): slow mode = 62 µsec fast mode = 31 µsec Line 1: opto decoupled UEXT = 5 .. 30 VDC / 24 VDC typical, IOUT = max. 16 mA high active (invert = false) ****) Power on 1: green: Readout active yellow: Link active 2: green: Receiving green flash: Transmitting 3: red: Technical specifications subject to change Baumer Optronic GmbH Last change: 27.01.2011 Badstrasse 30 DE-01454 Radeberg, Germany Phone +49 (0)3528 4386 0 Page 3 / 12 Fax +49 (0)3528 4386 86 www.baumeroptronic.com Version: TDS_TXG14cf-P_v20e_101220 Technical Data TXG14cf-P Environmental Storage temperature Operating temperature Housing operating temperature Humidity Conformity Housing Dimensions Weight 1000 Base-T interface Ethernet IP configuration Stream channel packet size Interpacketgap Resend function Software *) **) ***) ****) *****) -10 °C .. +70 °C +5 °C .. +50 °C *****) between +40 °C .. +50 °C, note the max. housing temperature max. +50 °C 10 % .. 90 % non condensing CE, FCC Part 15 class B, RoHS compliant aluminum, IP40 3 36 x 36 x 58 mm < 120 g 1000BASE-T (1000 Mbit / sec) persistent IP / DHCP / LLA 576 Byte (default) .. 65535 Byte jumbo frames supported yes Baumer-GAPI SDK with supported OS socket driver and Baumer filter driver / SDK for Windows XP (32 bit) / Windows Vista (32 bit / 64 bit) / Windows 7 (32 bit / 64 bit) / Linux Kernel 2.6.xx (64 bit / 32 bit) ® GigE Vision compatible programs and image processing libraries supported Windows / Linux depending on the actually driver software is used maximum frame rate in free running mode, effective frame rate depending on camera image format mode settings and set exposure time (texp < treadout) default pixel format between 38 VDC and 57 VDC IEEE802.3 clause 33 conform can be inverted via software housing temperature is limited by CCD sensor specification 2. Camera Factory Settings after Camera Start-up Camera factory settings after camera start-up free running mode Operation modes Signal processing Exposure control Gain control Offset (black level) Image acquisition Camera image format mode Partial scan function Acquisition frame rate Timer Transmission delay Test image selector Defect pixel correction Electrical interface Digital input 1: Digital output 1: 32 msec factor 1 = 0 dB 0 mode id = 01, full frame YUV422 Packed not active Off Off 0 ticks Off On Line0 disabled, digital output set to low status (high impedance) invert = false line source = Exposure Active Line1 disabled invert = false trigger source = Line0 Technical specifications subject to change Baumer Optronic GmbH Last change: 27.01.2011 Badstrasse 30 DE-01454 Radeberg, Germany Phone +49 (0)3528 4386 0 Page 4 / 12 Fax +49 (0)3528 4386 86 www.baumeroptronic.com Version: TDS_TXG14cf-P_v20e_101220 Technical Data TXG14cf-P 3. Timing Operation Modes Trigger Mode: start up time U UIN (high) start active trigger 11 V 0V tdelay trigger t Technical specifications subject to change Baumer Optronic GmbH Last change: 27.01.2011 Badstrasse 30 DE-01454 Radeberg, Germany Phone +49 (0)3528 4386 0 Page 5 / 12 Fax +49 (0)3528 4386 86 www.baumeroptronic.com Version: TDS_TXG14cf-P_v20e_101220 Technical Data TXG14cf-P Trigger Mode: trigger mode 0, overlapped trigger parameter * Frame n+1 effective parameter * Frame n effective exposure time Frame n effective trigger exposure time Frame n+1 effective earliest possible Trigger exposure time Frame n+2 effective earliest possible Trigger tmin tmin tmin tdelay trigger tdelay trigger tdelay trigger exposure texp(n) readout texp(n+1) texp(n+2) treadout(n+1) treadout(n) Frame n Frame n+1 tnot ready ready for trigger ** tdelay flash flash texp(n) tdelay flash texp(n+1) tdelay flash texp(n+2) texp < treadout: tearliest possible trigger (n+1) = treadout(n) - texp(n+1) texp > treadout: tearliest possible trigger (n+1) = texp(n) texp < treadout: tnot ready (n+1) = texp(n) + treadout(n) - texp(n+1) texp > treadout: tnot ready (n+1) = texp(n) * image parameter: offset global gain mode partial scan ** signal will be notified as event “TriggerReady” and is not available as digital output Technical specifications subject to change Baumer Optronic GmbH Last change: 27.01.2011 Badstrasse 30 DE-01454 Radeberg, Germany Phone +49 (0)3528 4386 0 Page 6 / 12 Fax +49 (0)3528 4386 86 www.baumeroptronic.com Version: TDS_TXG14cf-P_v20e_101220 Technical Data TXG14cf-P Trigger Mode: trigger mode 0, overlapped trigger , when texp (n+2) > texp (n+1) parameter * Frame n effective exposure time Frame n effective trigger parameter * Frame n+1 effective exposure time Frame n+1 effective earliest possible Trigger exposure time Frame n+2 effective earliest possible Trigger tmin tmin tmin tdelay trigger tdelay trigger tdelay trigger exposure texp(n) readout texp(n+1) texp(n+2) treadout(n+1) treadout(n) Frame n Frame n+1 tnot ready ready for trigger ** tdelay flash tdelay flash texp(n) texp(n+1) tdelay flash flash texp(n+2) texp < treadout: tearliest possible trigger (n+1) = treadout(n) - texp(n+1) texp > treadout: tearliest possible trigger (n+1) = texp(n) texp < treadout: tnot ready (n+1) = texp(n) + treadout(n) - texp(n+1) texp > treadout: tnot ready (n+1) = texp(n) * image parameter: offset global gain mode partial scan ** signal will be notified as event “TriggerReady” and is not available as digital output Technical specifications subject to change Baumer Optronic GmbH Last change: 27.01.2011 Badstrasse 30 DE-01454 Radeberg, Germany Phone +49 (0)3528 4386 0 Page 7 / 12 Fax +49 (0)3528 4386 86 www.baumeroptronic.com Version: TDS_TXG14cf-P_v20e_101220 Technical Data TXG14cf-P Trigger Mode: trigger mode 0, overlapped trigger , when texp (n+2) < texp (n+1) parameter * parameter * Frame n Frame n+1 effective effective exposure time exposure time Frame n+1 Frame n effective effective earliest possible Trigger trigger tmin tmin tdelay trigger tdelay trigger exposure texp(n) readout earliest possible Trigger tmin texp(n+1) treadout(n+1) treadout(n) Frame n Frame n+1 tnot ready ready for trigger ** tdelay flash tdelay flash texp(n) texp(n+1) flash texp < treadout: tearliest possible trigger (n+1) = treadout(n) - texp(n+1) Frame n+2 not started / overtriggered texp > treadout: tearliest possible trigger (n+1) = texp(n) texp < treadout: tnot ready (n+1) = texp(n) + treadout(n) - texp(n+1) texp > treadout: tnot ready (n+1) = texp(n) * image parameter: offset global gain mode partial scan ** signal will be notified as event “TriggerReady” and is not available as digital output Technical specifications subject to change Baumer Optronic GmbH Last change: 27.01.2011 Badstrasse 30 DE-01454 Radeberg, Germany Phone +49 (0)3528 4386 0 Page 8 / 12 Fax +49 (0)3528 4386 86 www.baumeroptronic.com Version: TDS_TXG14cf-P_v20e_101220 Technical Data TXG14cf-P Free Running Mode: overlapped operation parameter * parameter * parameter * Frame n-1 Frame n Frame n+1 effective effective effective exposure time exposure time Frame n Frame n effective effective exposure texp(n) readout texp(n+1) treadout(n-1) treadout(n) treadout(n+1) Frame n-1 Frame n Frame n+1 flash tdelay flash texp(n) * image parameter: tdelay flash texp(n+1) offset global gain mode partial scan Technical specifications subject to change Baumer Optronic GmbH Last change: 27.01.2011 Badstrasse 30 DE-01454 Radeberg, Germany Phone +49 (0)3528 4386 0 Page 9 / 12 Fax +49 (0)3528 4386 86 www.baumeroptronic.com Version: TDS_TXG14cf-P_v20e_101220 Technical Data TXG14cf-P 4. Housing 2,4 ø 30 57,7 36 20 8,2 ±0,25 temperature measurement point 26 26 4 - M3 depth 6 26 9,2 24,5 27 Side View Back View 36 Front View C-Mount 7 3,5 2 - M2 depth 4 8,1 18 8 - M3 depth 4,5 3,5 26 Top View 5. Connectors / Electrical Interfaces 5.1 Pin assignment: Type: RJ45 8P8C mod jack Data / Control 1000 Base-T 8 1 1: 2: 3: 4: 5: 6: 7: 8: MX1+ (negative / positive Vport) MX1- (negative / positive Vport) MX2+ (positive / negative Vport) MX3+ MX3MX2- (positive / negative Vport) MX4+ MX4- / Type: Lumberg RSMESD 4pin. Trigger Flash 2 4 1 Camera 3 current limiter cable termination 1 TrigIN+ 2 TrigIN- 4 3 IOUT UEXT RL *) *) resistor must be used, IOUT = 16 mA by UEXT = 24 VDC recommended, drawing shown above example for using high active signal Trigger / Flash cable wires color *): 1 = brown 2 = white 3 = blue 4 = black *) shielded trigger / flash cable should be used and ordered separately Technical specifications subject to change Baumer Optronic GmbH Last change: 27.01.2011 Badstrasse 30 DE-01454 Radeberg, Germany Phone +49 (0)3528 4386 0 Page 10 / 12 Fax +49 (0)3528 4386 86 www.baumeroptronic.com Version: TDS_TXG14cf-P_v20e_101220 Technical Data TXG14cf-P 5.2 Flash sync sample UEXT = 24 VDC high active: Camera IOUT UEXT Device customer RL Timing example: measurement condition UEXT = 24 VDC / IOUT = 16 mA RL = 1.5 kOhm U tduration 24 V 0V t tON tOFF tON time = typ. 2 µsec tOFF time = typ. 40 µsec 5.3 Flash sync sample UEXT = 24 VDC low active: IOUT UEXT RL Device customer Camera Timing example: measurement condition UEXT = 24 VDC / IOUT = 16 mA RL = 1.5 kOhm U tduration 24 V 0V t tON tOFF tON time = typ. 2 µsec tOFF time = typ. 40 µsec End of Document Technical specifications subject to change Baumer Optronic GmbH Last change: 27.01.2011 Badstrasse 30 DE-01454 Radeberg, Germany Phone +49 (0)3528 4386 0 Page 11 / 12 Fax +49 (0)3528 4386 86 www.baumeroptronic.com Version: TDS_TXG14cf-P_v20e_101220