JAI AD-081GE User Manual Download

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AD-081GE

The variable scan readout is connected with the ROI settings.
1. If ROI is set, these settings are applied to the partial scan settings.
2. If the multi ROI is used, the smallest number of the line and the largest number of the line

define the partial scan area.

3. In the case of sequence trigger, it is the same as for multi ROI. The smallest line and the

largest line define the partial scan.

In order to execute the partial scan, the fast dump should be ON.

Fig.28 variable partial scan

How to calculate total line number and frame rate on variable partial scan mode

Variable partial scan The start line setting

line to 760

line

Readout height 8 lines to 768 lines

Total lines =

①

OB period in the upper part of the frame (L) +

②

Fast Dump period in the

upper part of the frame (L) +

③

Readout lines(L) +

④

Fast dump period in the

lower part of frame(L)

⑤

Dummy transfer period

Where,

①

OB period in the upper part of the frame= 3L

②

Fast dump period for the upper part=

Round up

+ 1

③

Readout lines = Effective lines + 4L

④

Fast dump period for the lower part=

Round up

⑤

Dummy transfer period = 4L

Frame rate (fps) = Horizontal Frequency / Total lines

where, Horizontal Frequency 23.768KHz

Calculation example

Readout: 1/2 partial at the center (384L), Start line (193), End line (576)

Image Height

Image start line

Minimum: 8 lines

Maximum: 768 lines

Image starts at 1st line

760

8 lines

768 lines

When line number is set at 8 lines,

image starts at 760th line

Summary of Contents for AD-081GE

Page 1: ...1002E 0912 AD 081GE Digital 2CCD Progressive Scan HDR High Frame Rate Camera Document Version Ver 1 1 AD 081GE_Ver 1 1_Dec09 User s Manual ...

Page 2: ...s been tested and found to comply with the limits for a Class B digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference in a residential installation This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions may cause harmful interference ...

Page 3: ...ucts known as China RoHS The table shows contained Hazardous Substances in this camera mark shows that the environment friendly use period of contained Hazardous Substances is 15 years 嶷勣廣吭並嗤蕎嗤墾麗嵎賜圷殆兆各式根楚燕功象嶄鯖繁酎慌才忽佚連恢匍何〆窮徨佚連恢瞳麟半陣崙砿尖一隈〇云恢瞳ゞ嗤蕎嗤墾麗嵎賜圷殆兆各式根楚燕泌和桟隠聞喘豚窮徨佚連恢瞳嶄根嗤議嗤蕎嗤墾麗嵎賜圷殆壓屎械聞喘議訳周和音氏窟伏翌亶賜融延窮徨佚連恢瞳喘薩聞喘乎窮徨佚連恢瞳音氏斤桟廠夛撹冢嶷麟半賜斤児繁附夏恢夛撹冢嶷鱒墾議豚方忖仝15々葎豚 15定 ...

Page 4: ...1 5 Recommended External Input circuit diagram for customer 15 8 1 6 Recommended External Output circuit diagram for customer 15 8 1 7 Optical Interface Specifications 16 8 2 Inputs and outputs table 17 8 3 Configuring the GPIO module register settings 18 8 3 1 Input Output Signal Selector 18 8 3 2 12bit counter 18 8 3 3 Pulse generators 20 bit x 4 19 8 4 GPIO programming examples 20 8 4 1 GPIO Pl...

Page 5: ...gital gain 42 10 3 16 Rear Panel Indicator 43 10 3 17 Test signal generator 43 10 4 Sensor Layout and Timing 44 10 4 1 Sensor Layout 44 10 4 2 Horizontal Timing 45 10 4 3 Vertical Timing 46 10 4 4 Partial Scan when the start line is set at 193rd 47 10 4 5 Vertical binning 48 10 5 Operation Mode 49 10 5 1 Continuous mode 49 10 5 2 Edge Pre Select EPS trigger mode 50 10 5 3 Pulse Width Control PWC t...

Page 6: ... 2 Specifications Table 65 Register Map 67 Appendix 77 1 Precautions 77 2 Typical Sensor Characteristics 77 3 Caution when mounting a lens on the camera 77 4 Caution when mounting the camera 78 5 Exportation 78 6 References 78 Change History 80 User s Record 81 ...

Page 7: ...ation LUT gamma correction and knee control The AD 081GE has two GigE Vision compliant interfaces one for each sensor output The AD 081GE also complies with the GenICamTM standard and contains an internal XML file that is used to describe the functions features of the camera For further information about the GigE Vision Standard please go to www machinevisiononline org and about GenICam please go ...

Page 8: ...μs to 792L 33ms Edge Pre select Pulse Width Control Reset Continuous and PIV trigger modes Sequence trigger mode for on the fly change of gain exposure and ROI Delayed readout mode for smooth transmission of multi camera applications Smearless mode available Blemish compensation circuit built in Shading compensation circuit built in LUT Look Up Table for various gamma corrections Knee point and Kn...

Page 9: ... holes M3 max length 5mm Note 3 1 AD 081GE is based on a beam splitting prism For optimal performance lenses designed for 3CCD cameras should be used with this camera Rear protrusion of the C mount lens must be less than 4mm to avoid damage to the prism 2 When an RJ 45 cable with thumbscrews is connected to the camera please do not excessively tighten screws by using a screw driver The RJ 45 recep...

Page 10: ...in connector 1 can be changed by DIP switches 2 Open collector or TTL level can be selected by an internal DIP switch Factory default is TTL Pin no Signal Remarks 1 GND 2 12 V DC input 3 Opt IN 2 GND 1 GPIO IN OUT 4 Opt IN 2 Iris Video out 1 5 Opt IN 1 6 Opt IN 1 7 Opt Out 1 8 Opt Out 1 9 Opt Out 2 10 Opt Out 2 11 12 V DC input 12 GND 1 Iris Video output function can be set by the internal DIP swi...

Page 11: ...ory default is TTL TTL 75 Ω 5 4 2 EEN output EEN output through HIROSE 6 pin 4 can be selected TTL level or open collector level The selection is activated by DIP switch SW100 described below Factory default is TTL TTL OPEN 5 4 3 Video output for Auto iris lens The output through HIROSE 12 pin 4 can be selected OPT IN 2 or Iris video output by DIP switch SW700 described below Factory default is OP...

Page 12: ... 3 and 5 of the 6 pin Hirose connector The input is AC coupled To allow long pulses the input circuit is designed as a flip flop circuit The leading and trailing edges of the trigger pulse activate the circuit The trigger polarity can be changed Trigger input level 4 V 2 V 6 3 EEN Exposure Enable output XEEN is available on pin 4 of the 6 pin Hirose connector The output can be selected as either o...

Page 13: ...as an independent camera 7 2 Lens considerations The AD 081GE has a built in a beam splitter prism which separates transmitted and reflected light across the 400nm to 650nm visible wavelength range 50 of the incoming light is reflected and goes to the BW2 sensor while the remaining 50 transmitted light goes to the BW1 sensor Thanks to the compact design of the prism C mount lenses can be used with...

Page 14: ... 0 1 4095 Pulse Generator Setting 0 Start Point Counter 0 1 Length counter 0 Start Point Counter 0 2 for repeat End point counter 0 Counter 0 clear Pulse Generator Setting 2 Pulse Generator 0 20 bit Counter Pulse Generator 1 20 bit Counter Pulse Generator Setting 1 Pulse Generator Setting 3 TRIGGER 2 1 TRIGGER 2 0 Sequence Reset Pulse Generator 1 Pulse Generator 0 LVAL IN 2 TTL IN 1 EEN IN 2 FVAL ...

Page 15: ...tting value 4095 is 1 4096 dividing As the pixel clocks for the AD 081GE are 33 75 MHz the output frequency is varied from 33 75MHz to 23 768 KHz 8 1 3 Pulse Generators 0 to 3 Each pulse generator consists of a 20 bit counter The behavior of these signals is defined by their pulse width start point and end point The pulse generator signals can be set in either triggered or periodic mode In trigger...

Page 16: ...5 Recommended External Input circuit diagram for customer Fig 11 External Input Circuit OPT IN 1 and 2 8 1 6 Recommended External Output circuit diagram for customer 3 3V Fig 12 External Output Circuit OPT OUT 1 and 2 ...

Page 17: ...itions for Input Input Line Voltage Range 3 3V 24V Input Current 6mA 30mA Minimum Input Pulse Width to Turn ON 0 5μs Output Specifications Output Load Maximum Current 100mA Minimum Output Pulse Width 20μs Time Delay Rise TDR 0 5μs 0 7μs Rise Time RT 1 2μs 3 0μs Time Delay Fall TDF 1 5μs 3 0μs Fall Time FT 4 0μs 7 0μs Fig 13 Optical Interface Performance ...

Page 18: ...e Gen 2 Pulse Gen 3 Input Ports LVAL IN 1 DVAL IN 1 FVAL IN 1 EEN IN 1 LVAL IN 2 DVAL IN 2 FVAL IN 2 EEN IN 2 OPT IN 1 OPT IN 2 TTL IN 1 TTL IN 2 LVDS IN Soft Trigger 0 Soft Trigger 1 Soft Trigger 2 Soft Trigger 3 Pulse Gen 0 Pulse Gen 1 Pulse Gen 2 Pulse Gen 3 LEGEND 0 valid combination x Not valid do not use this combination The shaded parts are for the interface to external equipment ...

Page 19: ...rminal For the details please refer to Register Map Digital I O Acquisition and Trigger Control and Pulse Generator Line Selector Line Source Line Polarity 8 3 2 12bit counter Address Internal Name GenICam Name Access Size Value Range 0xB004 Counter Dividing Value ClockPreScaler R W 4 0x000 Bypass 0x001 1 2 Dividing 0x002 1 3 Dividing 0xFFF 1 4096 Dividing ...

Page 20: ...f FVAL counts 100 clocks for the high period of the pulse and 102 clocks for the pulse length As 2400 is for Clock Pre scaler the output of the 12 bit counter is 25 KHz which is 40µs Thus pulse generator 0 creates a 4 ms pulse The following shows JAI SDK Camera Control Tool for setting Pulse Generators Pulse Generator 0 IN FVAL 0 1 2 3 1 99 100 101 102 103 2 1 Start Point 0 End Point 100 Length 10...

Page 21: ...UT Cross Point Switch Pulse Generator 3 20 bit Counter Pulse Generator 2 20 bit Counter 12 bit Counter TRIGGER 1 0 TRIGGER 1 1 TTL OUT 1 OPT OUT 1 OPT OUT 2 Time Stamp Reset Sequence Reset LVAL IN 1 DVAL IN 1 FVAL IN 1 EEN IN 1 OPT IN 1 OPT IN 2 TTL IN 2 LVDS IN 1 Soft Trigger 0 Soft Trigger 1 Soft Trigger 2 Soft Trigger 3 Pulse trigger IN Pulse OUT Pulse Generator 0 Pulse Generator 1 Pulse Genera...

Page 22: ...erator 2 20 bit Counter 12 bit Counter TRIGGER 1 0 TRIGGER 1 1 TTL OUT 1 OPT OUT 1 OPT OUT 2 Time Stamp Reset Sequence Reset LVAL IN 1 DVAL IN 1 FVAL IN 1 EEN IN 1 OPT IN 1 OPT IN 2 TTL IN 2 LVDS IN 1 Soft Trigger 0 Soft Trigger 1 Soft Trigger 2 Soft Trigger 3 Pulse trigger IN Pulse OUT Pulse Generator 0 Pulse Generator 1 Pulse Generator 2 Pulse Generator 3 Digital I O GPIO setting Digital I O GPI...

Page 23: ...B A 200 mV CCD output level equals 100 video output Fig 16 Digital Output 10 bit output 9 2 Bit Allocation Pixel Format Pixel Type In the GigE Vision Interface GVSP GigE Vision Streaming Protocol is used for an application layer protocol relying on the UDP transport layer protocol It allows an application to receive image data image information and other information from a device In the AD 081GE t...

Page 24: ... 7 8 9 10 11 4 5 6 7 8 9 10 11 0 1 2 3 0 1 2 3 4 5 6 7 8 9 10 11 Y3 Y1 Y0 Y2 Address Internal Name Access Size Value 0xA410 Pixel Format type R W 4 0x01080001 Mono8 0x01100003 Mono10 0x010C0004 Mono10 Packed 0x01100005 Mono12 0x010C0006 Mono12 Packed 2 3 4 5 6 7 8 9 0 1 X X 0 1 X X 2 3 4 5 6 7 8 9 2 3 4 5 6 7 8 9 0 1 X X 0 1 X X 2 3 4 5 6 7 8 9 Y3 Y1 Y0 Y2 0 1 2 3 4 5 6 7 8 9 10 11 X X X X 0 1 2 3...

Page 25: ...te described in this manual is for the ideal case and may deteriorate depending on conditions When using multiple cameras going through a switch and or a single path or when operating in a system with limited transmission bandwidth the Delayed Readout Mode and Inter Packet Delay functions can be useful 10 2 Recommended Network Configurations Although the AD 081GE conforms to Gigabit Ethernet IEEE ...

Page 26: ...tegrity of packets transmitted from the camera it is recommended to follow these simple guidelines 1 Whenever possible use a peer to peer network 2 When connecting several cameras going through a network switch make sure it is capable of handling jumbo packets and that it has sufficient memory capacity 3 Configure inter packet delay to avoid congestion in network switches 4 Disable screen saver an...

Page 27: ...xed value Item Unit value Data Leader Packet Size Bytes 90 Data Trailer Packet Size Bytes 62 Formula to calculate Data Transfer Rate J 90 62 E 18 G 2 8 D 1000000 Where G ROUNDUP A B C 8 E 36 2 The following table shows Bits per Pixel which depends on the pixel format Pixel format Bit MONO8 8 MONO10 16 MONO10Packed 12 MONO12 16 MONO12Packed 12 Calculation example AD 081GE Pixel type Mono8 Item Unit...

Page 28: ...ewalls must be disabled This also includes the Windows firewall Click Start Control Panel for accessing the Windows firewall configuration 10 2 4 Enabling Jumbo Frames 1 Click Start and click Control Panel 2 Click Performance and Maintenance 3 Click System 4 Click Hardware tab 5 Click Device Manager ...

Page 29: ...Select target NIC right click and click Properties Note Intel 1000 is used in this example If different NICs are used the following setup tabs will likely be different Follow the tabs associated with the specific NIC used 8 Click Advanced tab ...

Page 30: ...ce Manager 12 Close System Properties by clicking OK 10 2 5 Setting Receive Descriptors If the Network Connection Properties list contains a property called Receive Descriptors then change its property to the maximum value supported by the NIC installed in the computer Click OK to save the property ...

Page 31: ...ace card via a switching hub it is important to optimize the Inter Packet Delay of the cameras to avoid congestion in the switch A sure sign of congestion is the loss of packets Since increasing the inter packet delay also adds overhead to the data transfer it is important to calculate the optimal setting in order to make best use of the video bandwidth JAI Control Tool has a built in wizard for c...

Page 32: ... Delay column of the Control Tool 10 2 8 Confirm the Filter Driver is used The filter driver is installed as an optional function when JAI SDK is installed If the filter driver is not installed at that time it can be installed from All Programs JAI SDK GigE Vision Filter Driver Install GigE Vision Filter Driver If the Filter Driver is installed properly the Camera Control Tool indicates Driver Typ...

Page 33: ...rease Depending on the performance of the computer used the frame rate may be decreased Confirm the packet size is increased It can be set in the Camera Control Tool provided in JAI SDK 10 2 10 Note for 100BASE TX connection In order to use 100Mbps network 100BASE TX and Full Duplex are available Half Duplex cannot be used In the case of connecting on 100BASE TX the maximum packet size should be 1...

Page 34: ... Two image sensors can be operated either in SYNC mode or ASYNC mode as well as specific functions such as high frame rate high dynamic range or high s n mode This can be set by the Sync mode command Sync mode Video output Pixel format Trigger input Readout Partial smearless Functions Shutter etc Sync Sensor 1 2 can be independently set Trigger to sensor 1 also triggers sensor 2 Settings for senso...

Page 35: ... High frame rate Automatic Same for BW1 2 Continuous Individual 1 Sync individual setting asynchronous Same for BW1 2 EPS Individual 10 3 4 High dynamic range mode In this mode high dynamic range can be achieved by setting a different exposure time for each sensor To use this mode set Readout mode to High dynamic range The combining of the two signals uses the ratio of the shutter value for each s...

Page 36: ...of two images High dynamic range Sync Mode 5 In this mode 50 of each video level is added to make an output The formula for the composition process is where 1 m shutter value of BW1 1 n shutter value of BW2 Fig 20 Composition of two images BW1 BW2 Video output Video output Incoming light Incoming light Video output Incoming light Composed video 100 100 100 50 ...

Page 37: ...ge is When the high dynamic range mode is activated the same composed output can be fed through both GigE 1 and GigE 2 Set the appropriate output port to capture the image BW CCD 1 Image Process Frame Memory MAC PHY RJ45 GigE 1 BW CCD 2 Image Process Frame Memory MAC PHY RJ45 GigE 2 MIX Fig 22 High dynamic range output If the composition process is to be done on the host PC instead set Readout mod...

Page 38: ...posed output 0 SYNC Sync Same for BW1 BW2 Continuous EPS PWC RCT Individual Process in PC 10 3 6 PIV Particle Image Velocimetry mode The AD 081GE has a PIV Particle Image Velocimetry mode This mode provides three 3 consecutive images by one trigger pulse When the trigger is input the first exposure on BW1 can be captured followed quickly by an exposure on BW2 After the exposure on BW2 is completed...

Page 39: ...r is received during FVAL low the camera works in LVAL asynchronous no delay mode This applies to both Pre Select PS trigger and Pulse Width trigger PW modes 10 3 9 Partial scan Fast dump ON Partial scan allows higher frame rates by reading out a smaller portion of the image reducing vertical resolution This is particularly useful when inspecting objects that do not fill the whole height of the im...

Page 40: ...ne setting 1st line to 760th line Readout height 8 lines to 768 lines Total lines OB period in the upper part of the frame L Fast Dump period in the upper part of the frame L Readout lines L Fast dump period in the lower part of frame L Dummy transfer period Where OB period in the upper part of the frame 3L Fast dump period for the upper part Round up 1 Readout lines Effective lines 4L Fast dump p...

Page 41: ...4 v pixels 49 30 frames sec 10 3 11 Electronic shutter The AD 081GE has programmable exposure and the GenICam standard Exposure Time Abs Programmable Exposure Exposure time can be controlled in 1 L unit 42 07µs from 0L to 792L As the overhead of 0 5L is added the actual shutter time is from 0 5L to 791 5L in the range from 0L to 791L 792L is the shutter OFF The actual shutter speed for each operat...

Page 42: ...idth mode The clock generator and counter can be programmed in very fine increments For an example of the settings refer to chapter 8 4 1 The following table shows the approximate relationship among shutter modes Shutter speed sec PE Exposure Time Aps µs 1 50000 0 20 1 16000 1 62 1 10000 2 104 1 4000 5 230 1 2000 11 482 1 1000 23 987 1 500 47 1997 1 250 95 4017 1 120 127 5363 1 100 197 8308 1 60 3...

Page 43: ... Blemish compensation The AD 081GE has a blemish compensation function In the factory the data for blemish compensation is stored in the factory data When the blemish compensation is set to ON the factory data is loaded The user can store the compensation data in the user area 1 to 3 When executing a blemish calibration it can be done for white and black blemishes The user can also set the thresho...

Page 44: ...nnecting 1000Base T Link Flashing green Connecting 100Base T 10Base T Link Amber GigE Network Act Fig 33 Rear Panel Note When the camera is connected to 10BASE T the system is not available 10 3 17 Test signal generator Address Function Read Write Size Value 0xA13C Test stream RO 4 0 OFF 4 H Ramp scale 5 V Ramp scale 6 Moving Ramp scale D C IN T R IG G P IO P O W E R T R IG G ig E 2 G ig E 1 1 1 8...

Page 45: ...l and horizontal pixels used in full frame readout is shown below Fig 34 Sensor layout and video output image Blank Readout Vertical 1077 Active Pixels 1024 H x 768 V Optical Black Lines Optical Black Lines Reserved Lines Reserved Lines 1024 3 6 4 40 7 6 2 5 Blank 1420 Clock Read Out Horizontal 4 343 768 792 ...

Page 46: ...8 6 3 4 3 c k 1 4 2 0 c k 1 3 2 8 c k 1 0 2 4 c k 1 0 7 7 c k 3 4 3 c k 2 0 u s OB Re s e r v e d 3ck 8 c k OB 40 ck 1 0 2 4 c k Re s e r v e d 4 5 c k 3ck 6ck 3 4 3 c k 4c k 6ck 29 ck 29ck 5 9 0 c k 6 7 6 c k 1 0 7 7 c k 1 4 8 9 2 1ck 1 1 0 3 c k FVAL rising edge FVAL falling edge Effective Pixels 1CLK 1 Pixel clock period OB Optical black LVAL is HIGH in the period of optical black and effective...

Page 47: ...B D A T A OUT D V A L 0 5 L L V A L S UB S G F V A L E E N F VAL L VAL 1 F V A L p e r i o d E x p o s u r e P e r i o d 1L 1420Clock 42 07us 7 9 2 L 4 L 7 8 8 L 1L 1 LVAL period OB optical black FVAL is HIGH in the optical black and effective video periods LVAL is always output DVAL is output during the effective lines This timing chart shows camera timing The output through GigE interface is onl...

Page 48: ...k 1 3 2 8 c k 1 0 2 4 c k 1 0 7 7 c k 3 4 3 c k 2 0 u s OB Re s e r v e d 3ck 8 c k OB 40 ck 1 0 2 4 c k Re s e r v e d 4 5 c k 3ck 6ck 3 4 3 c k 4c k 6ck 29 ck 29ck 5 9 0 c k 6 7 6 c k 1 0 7 7 c k 1 4 8 9 2 1ck 1 1 0 3 c k F V A L r i s i n g e d g e F V A L f a l l i n g e d g e Effective Pixels LVAL is high during the period of optical black and effective pixels DVAL is high during effective pi...

Page 49: ...A L EEN SG SUB LVAL FVAL 1 FVAL Per i od 3 9 2 L 3 9 6 L R e s e r v e d R e s e r v e d Exposure Period DATA OUT Fig 39 Vertical timing for vertical binning Horizontal timing D A T A OU T D V A L C C D Ou t Effecti ve Pi xels 30us F V A L S U B S G E E N FVAL Fal l i ng Edg e 1 L V A L p e r i o d 1c k 33 750MHz 29 63ns c k FVAL Rai s i ng Edg e L V A L E x pos ur e P e r i o d 643 1720 1077 1024...

Page 50: ...8 Delayed readout PWC Pulse controlled exposure 9 Smearless Effective for EPS and PWC 10 OB transfer mode 11 ROI mode 10 5 1 Continuous mode For applications not requiring asynchronous external triggering this mode should be used for continuous operation For timing details refer to fig 33 through fig 38 To use this mode Set function Trigger mode Continuous Sync mode Sync async High transfer rate H...

Page 51: ... 792 L 1L unit Accumulation Auto LVAL sync LVAL async Other functions Input External Trigger GigE I F Hirose 12 pin Hirose 6 pin Important Note 1 The minimum duration of the trigger is 2L The minimum period of trigger is as follows Sync mode Sync Smearless OFF FVAL 792L 3L Difference shutter time between BW1 and BW2 Smearless ON Smearless Time 198L 1 longer exposure time between BW1 and BW2 FVAL 7...

Page 52: ...s Fig 42 Edge Pre select LVAL asynchronous details Fig 43 Edge Pre select LVAL synchronous Exposure Del ay 1 5L Data out Del ay Exposure DATA out t1 1L M ax 13 5L Ext Tri g FVAL EEN LVAL Exposure Pri od 1L 1420Cl ock 42 07us W hen the LVAL Sync Accum t1 0 5 to 1 5L W hen the LVAL Async Accum t1 0 5L Fig 44 Edge Pre select LVAL synchronous details ...

Page 53: ...eadout mode Sync async Output Select 8 bit 10 bit 12 bit Scanning Full Partial Vertical binning ON OFF Accumulation LVAL async Other functions Input External Trigger GigE I F Hirose 12 pin Hirose 6 pin Important Note 1 The minimum duration of the trigger is 2L The minimum period of trigger is as follows Sync mode Sync Smearless OFF Exposure time 792L 3L Smearless ON Exposure time Min 199L 2L 792L ...

Page 54: ...ctive period 199L 2L If the trigger pulse width is shorter than 199L the exposure is not active Data out Del ay Del ay of Exposure Start Exposure DATA out 1 to 2L 13 to 14L Ext Tri g FVAL EEN LVAL Exposure Pri od Del ay of Exposure End 1L 1420cl ock 42 07us 14 2us 32 1us Fig 46 Pulse Width Control LVAL synchronous details ...

Page 55: ... a lens with video controlled iris The accumulation is LVAL Async only To use this mode Set function Trigger mode Reset Continuous RCT Readout mode Sync async Output Select 8 bit 10 bit 12 bit Scanning Full Partial Vertical binning ON OFF Shutter Programmable Exposure Time Abs Programmable Shutter 0 5L to 792 L 1L unit Accumulation LVAL async Other functions Input External Trigger GigE I F Hirose ...

Page 56: ...parate In this mode one trigger input provides three consecutive outputs A strobe light is used for illumination PIV has three preset modes PIV mode Exposure time Trigger Interval PIV 1 4 µ 1 5 µ PIV 2 6 µ 1 5 µ PIV 3 8 µ 1 5 µ Trigger width 2L min to 1V max PIV Mode Trigger Input EEN Exposure Video Output EEN Exposure Video Output SG SG 1 Frame ４μs 1 5µs ４μs Strobe 1 Strobe 2 Strobe 3 B W 1 B W 2...

Page 57: ... X Offset Y 1 1024 768 0 0 792 0 1 2 1024 768 0 0 792 0 1 3 1024 768 0 0 792 0 1 4 1024 768 0 0 792 0 1 5 1024 768 0 0 792 0 1 6 1024 768 0 0 792 0 1 7 1024 768 0 0 792 0 1 8 1024 768 0 0 792 0 1 9 1024 768 0 0 792 0 1 10 1024 768 0 0 792 0 1 The following registers are used to configure the sequence 0xC0F4 Sequence Repetitions Number of Repetitions note 0 repeat indefinitely 0xC0F8 Sequence Endin...

Page 58: ...eadout EPS and PWC Modes EPS and PWC This mode can be used to delay the transmission of a captured image When several cameras are triggered simultaneously and connected to the same GigE interface it allows the cameras to be read out in sequence preventing congestion The image data is not transmitted directly by the trigger 0 and is stored in the memory located at the Ethernet Interface By the fall...

Page 59: ...t is unaffected At the falling edge of the trigger pulse the high speed transfer starts This period is 8 32ms which is 198L Thereafter the residual charge in the horizontal CCD register is read out in 1L and the new exposure starts This function is available for both full scan and partial scan Fig 51 PWC timing chart with Smearless ON DVA L DATA OUT OB 1 7L 2 3 4 5 7 6 5 7 6 4 7 6 6 7 6 8 7 6 7 R ...

Page 60: ...ning 1 1024 1 384 1 1024 1040 1 384 Note The menu for ON or OFF of OB transfer mode is found on the Image Format Control of the JAI SDK Camera Control Tool 10 5 10 Multi ROI mode Multi Region of Interest In this trigger mode up to 5 ROIs located on one image can be output by one trigger input By using this mode the data stream can be smaller Each ROI can be overlapped Please note that if the accum...

Page 61: ...PS Yes Yes Yes Yes No 02 Pulse Width Control PWC Not applicable Yes Yes Not applicable No 04 RCT Yes Yes Automatically ON Yes Automatically ON Yes 32 PIV 1 No No No No No No No 64 PIV 2 No No No No No No No 128 PIV 3 No No No No No No No 09 Sequential EPS Yes Yes No Yes No No 17 Delayed Readout EPS Yes Yes Yes Yse No 18 Delayed Readout PWC Not applicable Yes Yes Not applicable No Note 1 means that...

Page 62: ...ulse Width Control PW Not applicable Yes Yes Not applicable Yes Yes No 04 RCT Yes Yes Automatically ON Yes Yes Automatically ON Yes 32 PIV1 No No No No No No No 64 PIV2 No No No No No No No 128 PIV3 No No No No No No No 09 Sequential EPS Yes Yes No Yes note1 No No 17 Delayed Readout EPS Yes Yes Yes Yes No 18 Delayed Readout PWC Not applicable Yes Yes Not applicable No Note 1 means that the setting...

Page 63: ...e added to packets Accordingly the frame rate may be decreased If so it is recommended to set the packet size to a higher value Please note that the packet size is not stored and it is necessary to set it on every start up The current frame rate is shown at the bottom of the camera control tool Note the above figure is from BM BB 141GE 10 7 3 Acquisition frame rate Acquisition frame rate is a func...

Page 64: ...ernal Appearance and Dimensions 1 8 8 1 G PIO D C I N TRIG POW ER TRIGGER Gig E 2 Gig E 1 40 55 4 0 55 40 C M ount 4 M 3 Depth5 40 4 M 3 Depth5 5 3 40 5 3 5 3 0 3 90 90 4 M 3 Depth5 90 4 M 3 Depth5 98 3 Fig 52 Dimensions ...

Page 65: ...AD 081GE 64 12 Specifications 12 1 Spectral response Fig 53 Spectral response of monochrome sensor Fig 54 Total spectral response including prism and sensor ...

Page 66: ...put switch Clock Generator one Pulse generator Four Configurable 21 in 14 out switch 12 bit counter based on pixel clock 20 bit counter programmable for length stat point stop point repeat Hardware Trigger mode Edge Pre select Pulse width control RCT PIV Frame delay Sequence OB area transfer mode ON OFF Event message Exposure start Exposure end Trigger IN Video start Video end Electronic Shutter P...

Page 67: ... Shock 50G Regulatory CE EN61000 6 2 EN61000 6 3 FCC Part15 Class B RoHS Power DC 12V to 24V 10 7 6W Typical normal operation 12V Dimensions 55 H x55 W x 98 3 D mm Weight 320 g Note Above specifications are subject to change without notice Note Approximately 30 minute pre heat required to meet specifications ...

Page 68: ... 0 1016 Horizontal offset 0 0xA510 ROI 1 Offset Y OffsetY RW 4 0 760 Vertical offset 0 0xA514 ROI 2 Width Width2 RW 4 8 1024 Width 2 W Max 0xA518 ROI 2 Height Height2 RW 4 8 768 Height 2 H Max 0xA51C ROI 2 Offset X OffsetX2 RW 4 0 1016 Offset X2 0 Device Information Address Display Name JAI Control Tool GenICam name Read Write Size Value Range of value Description Default value 0x0048 Device Vendo...

Page 69: ...tDumpEnable RW 4 For enabling variable partial scan 0xA084 Binning Vertical BinningVertical RW 4 1 Binning OFF 2 1 2 V Binning 1 0xA098 Sync Mode SyncMode RW 4 0 Sync 1 Async 2 High transfer Rate 3 High dynamic Range1 4 High S N 5 High dynamic range 2 6 High dynamic range 3 0xA13C Test Image Selector TestImageSeleector RW 4 0 OFF 4 H Rmap Scale 5 V Ramp Scale 6 Moving Ramp Scale 0 0xA41C OB Transf...

Page 70: ...g Edge Active High 1 Falling Edge Active Low Trigger Source 127 OFF 9 Line4 OpticalIn 1 10 Line5 optical In 2 12 Line6 TTL In 1 13 Line7 TTL In 2 11 Line8 LVDS In 16 Pulse Generator0 17 Pulse Generator1 18 Pulse Generator2 19 Pulse Generator3 20 User Output 0 Software trigger 0 21 User Output1 Software trigger10 22 User Output 2 software trigger 2 23 User Output 3 Software trigger 3 Add 0x80 makes...

Page 71: ... 0x10000 0x10CE 0 Shading Data Selector ShadingDataSelector Red _Mono R 4 0 65535 Index 0 824 0 0xA138 Perform Black Blemish Reduction Calibration PerformBlackBlemishCali bration W 4 Command 0 Perform White Blemish Reduction Calibration PerformWhiteBlemishCali bration Command 1 0x12700 0x1277 C Blemish Data Selector Black Blemish BlemishDataSelector Blac kBlemish R 4 0 0xFFFFFFFF Index 0 31 0 0x12...

Page 72: ...ock Pre scaler ClockPreScaler RW 4 0x000 0x001 0x002 0xFFF Bypass Divide by 2 Divide by 3 Divide by 4096 0 0xB008 Pulse Generator Length 0 PulseGeneratorLength0 RW 4 1 1048575 Defines the length of the counter 0 1 0xB00C Pulse Generator Start Point 0 PulseGeneratorStartPoint 0 RW 4 0 1048574 Defines the starting point of the counter 0 0 0xB010 Pulse Generator Repeat Count 0 PulseGeneratorRepeatCo ...

Page 73: ...arting point of the counter 3 0 0xB04C Pulse Generator Repeat Count 3 PulseGeneratorRepeatCo unt3 RW 4 0 255 Defines the repeat count of the counter 3 0 0xB050 Pulse Generator End Point 3 PulseGeneratorEndPoint3 RW 4 1 1048575 Defines the end point of the counter 3 1 0xB054 Clear Mode for the Pulse Generator 3 PulseGeneratorClear3 RW 4 0 Free Run 1 High Level 2 Low Level 4 Rising Edge 8 Falling Ed...

Page 74: ...ffset value Base Address INDEX 0 to 9 Base Address Index 4 0 0xC19C Repeat Count in Each Step SequenceRepeatCountInE achStep RW 4 1 to 255 Sequence repeat count value Base Address INDEX 0 to 9 Base Address Index 4 0 0xC0F0 Reset Sequence Settings SequenceResetCommand RW 4 1 only Sequence3 reset 1 0xC0F4 Sequence Repetition Count SequenceRepetitions RW 4 0 to 255 Sequence repeat count 0 0xC0F8 Last...

Page 75: ...ssage Channel Count GevMessageChannelCount R 4 number of available message channel 0x0904 Stream Channel Count GevStreamChannelCount R 4 number of available stream channel 0x0934 Supported Optional Commands User defined Name GevSupportedOptionalCo mmandsUser definedNam e R 4 Bit 31 multiple read Bit 30 WRITEMEM Bit29 PACKETRESEND Bit 28 EVENT Bit 27 EVENTDATA Bit 1 Serial No Bit 0 User defined nam...

Page 76: ...sage Channel Transmission Timeout GevMCTT R 4 message channel transfer timeout ms 300 0x0B18 Message Channel Retry Count GevMCRC R 4 message channel retry count 2 0x0D00 Stream Channel Port GevSCPHostPort R 4 primary stream port register 0xD04 Fire Test Packet GevSCPSFireTestPacket RW 4 1 The device will fire one test packet of size specified by the packet size The don t fragment bit of IP header ...

Page 77: ...y Lines Any Edges AnyLineAynyEdge 17 0 Updated All Features UpdatedAllFeatures 18 1 Processing Done ProcessingDone 19 1 Video Parameters Changed VideoParamsChanged 20 1 Opposite Channel Parameters changed DioTrigParamsChanged 21 1 Device Reset DeviceReset 31 1 Event Notification EventNotification 0 Disable 1 Enable User Sets Address Display Name JAI Control Tool GenICam name Read Write Size Value ...

Page 78: ...mage sensor blemishes Over time some pixel defects can occur This does not have a practical effect on the operation of the camera These will show up as white spots blemishes Exposure to cosmic rays can cause blemishes to appear on the image sensor Please take care to avoid exposure to cosmic rays during transportation and storage It is recommended that sea shipment instead of air flight be used in...

Page 79: ...ounting plate please use the provided screws 5 Exportation When exporting this product please follow the export regulation of your own country 6 References 1 This manual for AD 081GE can be downloaded from www jai com 2 Datasheet for AD 081GE can be downloaded from www jai com 3 JAI SDK software can be downloaded from www jai com Camera chassis Fixing plate Mounting the camera to fixing plate 5 0m...

Page 80: ...al trigger 43 49 50 G Gain 76 Gamma 76 GenICam 39 Gigabit Ethernet 9 GigE Vision compliant 27 GigE Vision Streaming Protocol 25 GPIO 19 56 72 GPIO programming examples 23 H Hirose 27 I Inter Packet Delay 27 Iris Video 11 36 K Knee 42 76 L LVDS 76 N Network Interface Cards 27 P Partial scan 37 47 Pixel Type 25 Pixels in video output 76 R Register 23 24 57 ROI 56 S SDK 57 Shading correction 42 smear...

Page 81: ...AD 081GE 80 Change History Month Year Revision Changes Oct 2009 1 0 New release Dec 2009 1 1 Add functions high dynamic range mode 5 and 6 Modify the register map exclusively for AD 081GE ...

Page 82: ...re trademarks or registered trademarks of their respective owners JAI A S cannot be held responsible for any technical or typographical errors and reserves the right to make changes to products and documentation without prior notification Europe Middle East Africa Asia Pacific Americas Phone 45 4457 8888 Fax 45 4491 3252 Phone 81 45 440 0154 Fax 81 45 440 0166 Phone toll free 1 800 445 5444 Phone ...

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