OEM-D2048 - Photonfocus
Contents
1. Example 1 row 0 row 1 last row gt eek DL A pai A prin FRAME VALID al LINE_VALID MIT Y EN CET DATA_VALID Y X f DATA 7 0 PP E DATA 15 8 Wu X55 X97 Cam d emm 55 0 Em Example 2 FRAME VALID LINE_VALID DATA_VALID IER EE GO AC EG Aaa r DATAIT 0 ZN E NOON 0 CSC 0 e DATA 15 8 H WX emm LR Figure 3 1 Timing examples of image data signals Bit Tap 0 Tap 1 Tap 0 Tap 1 Tap 0 Tap 1 8 Bit 8 Bit 12 Bit 12 Bit 0 LSB DATA O DATA 8 DATA O DATA 16 DATA O DATA 16 DATA 1 DATA 9 DATA 1 DATA 17 DATA 1 DATA 17 2 DATA 2 DATA 10 DATA 2 DATA 18 DATA 18 3 DATA 3 DATA 11 DATA 3 DATA 19 DATA 19 4 DATA 4 DATA 12 DATA 4 DATA 20 DATA 20 5 DATA 5 DATA 13 DATA 5 DATA 21 DATA 21 6 DATA 6 DATA 14 DATA 6 DATA 22 DATA 22 7 MSB of 8 Bit DATA 7 DATA 15 DATA 7 DATA 23 DATA 23 8 DATA 8 DATA 12 DATA 8 DATA 12 9 MSB of 10 Bit DATA 9 DATA 13 DATA 9 DATA 13 10 DATA 10 DATA 14 11 MSB of 12 Bit DATA 11 DATA 15 Table 3 7 2 Tap data assignment 3 1 Connectors 17 3 Hardware Interface Bit Tap 0 Tap2. Outline of the CMV2000 2 MP sensor 26 CROSS SECTION 0 55 0 05mm 12 95 0 10mm E 1 60 0 180 Rotation of die ref outside of package 0 5 degrees Tilt of die ref die attach area 0 2 degrees red Yad 2 2 1 A e 22 22 TRANSPARANT TOP VIEW Rotation of die ref outside of package 0 5 degrees Tilt of die ref die attach area 0 2 degrees Figure 4 7 Outline of the CMV4000 4 MP sensor 4 4 Mechanical Interface 60 0 180mm 27 4 OEM D2048 4 4 2 OEM D2048 Processing PCB Fig 4 8 shows the dimensions of the OEM D2048 Processing PCB K 43 7mm 40 9mm gt 8 1mm 40 Smm L 43 7mm Figure 4 8 Dimensions of OEM D2048 Processing PCB 4 5 Power Supply The OEM camera modules require three power supply voltages The OEM camera modules meet all performance specifications using standard switching power supplies although well regulated linear power supplies provide optimum performance It is extremely important that you apply the appropriate voltages to your OEM camera module Incorrect voltages will damage the OEM camera modules Table 4 3 summarizes the specifications for the power supply voltages and Table 4 4 summarizes the specifications for the supply current A The maximum noise level should not exceed 20 mV 28 Parameter Symbol Supply Vol
3. 1 Tap 2 0 LSB DATA O 8 DATA 16 1 DATA 1 DATA 9 DATA 17 2 DATA 2 DATA 10 DATA 18 3 DATA 3 DATA 11 DATA 19 4 DATA 12 DATA 20 5 DATA 5 DATA 13 DATA 21 6 DATA 6 DATA 14 DATA 22 7 DATA 7 DATA 15 DATA 23 Table 3 8 3 Tap data assignments 18 Trigger Various trigger input signals are available The naming used in the CameraLink manual and in the GigE manual is slightly different see Table 3 9 Some trigger signals are not available on all camera module models see the manual of the underlying standard camera for more information Signal Name CL Name GigE Name Notes TRIGGER Trigger Line 1 Trigger This signal is inverted in the FPGA CC1 Interface Trigger PLC Q4 CC2 cc2 PLC_Q5 CC3 PLC_Q6 4 PLC Q7 Table 3 9 Naming of the trigger signals Serial Configuration The OEM camera modules can be controlled by the user via a RS232 compatible asynchronous serial interface with LVCMOS levels signals TX and RX The interface is accessible via the board connectors The preferred method to control the camera through the serial interface is with the ASCII protocol that is described MANO50 Another option is to set the software on the base of the PFRemote SDK The Photonfocus software itself is platform independent and was already ported to different operating systems and embedded solutions The compi
4. 4 3 Available Models 23 4 OEM D2048 4 4 Mechanical Interface During storage and transport the camera modules should be protected against vibration shock moisture and dust The original packaging protects the camera modules adequately from vibration and shock during storage and transport Please either retain this packaging for possible later use or dispose of the packaging according to local regulations The OEM D2048 camera module consists of two PCB the sensor PCB and the Processing PCB Overviews of the two boards are shown in Fig 4 2 and Fig O The front side of the Sensor PCB has a copper border The customer housing should be designed to contact with this copper border for proper heat dissipa tion Several temperature monitors are integrated on the camera modules to super vise system reliability STEP files of the OEM camera modules are available on request lt During development phase the temperature monitors be used to check whether the customers housing sufficiently supports the heat sink copper cooling area 1 6 2 O Oef 1 e O O H 00 00000000000 8 Figure 4 2 Mech
5. of 2048 x 1088 2000 or 2048 x 2048 pixels CMV4000 The module series is optimized for low light conditions and there are standard monochrome NIR enhanced monochrome and colour models The modules are aimed at standard applications in industrial image processing where high sensitivity and high frame rates are required 4 2 2048 Naming Convention The naming convention of the OEM D2048 camera series is summarized in Fig 4 1 optional Camera Interface Prefix2 Sensor height speed resolution OEM D2048x1088C 96 LC 10 Prefix1 Sensor width Sensor type Interface type optional Figure 4 1 Camera naming convention Prefix1 is currently the only used Prefix1 Prefix2 Camera family specifier The following specifiers are used in this manual D standard area scan cameras L cameras with dedicated line scan mode Sensor width All cameras covered in this chapter use sensors with a width of 2048 pixels Sensor height This indication is optional to avoid ambiguity The modules that use the 2 MPix CMV2000 sensor have a height indicator of 1088 The modules that use the 4 MPix CMV4000 sensor don t have a height indication The exception are the L models Prefix2 L that have CMV2000 image sensor Sensor type Available sensor types are I NIR enhanced sensors C colour cameras Cameras without sensor type specifier have a standard monochrome sensor Camera spee
6. 3 O BASE_X2P 11 O DATAS PDN1 9 O DATA4 BASE_X1N 7 O DATA3 BASE_X1P 5 O DATA2 PDNO 3 O DATA1 BASE_XON 1 O DATAO BASE Table 3 1 Definition of the pinout of the OEM camera module connector odd row 39 to 1 10 Table 3 2 Definition of the pinout of the OEM camera module PCB connector odd row pin 79 to 41 3 1 Connectors Pin C1 Type C1 Name C2 Type C2 Name 79 PW VDD_50 PW VDD_50 77 PW VDD_50 PW VDD_50 75 PW VDD_33 PW VDD_33 73 PW VDD_18 PW VDD_18 71 O DC_DC_CLK O DC_DC_CLK 69 O STROBE O STROBE 67 TRIGGER TRIGGER 65 cc2 PDN10 63 BASE_CC4N 61 BASE_CC4P 59 CC PDN9 57 O CL_SPARE BASE_CC3N 55 O PIXEL_CLK BASE_CC3P 53 O DATA_VALID PDN8 51 O LINE_VALID BASE_CC2N 49 O FRAME_VALID BASE_CC2P 47 O DATA23 PDN7 45 O DATA22 BASE_CC1N 43 O DATA21 BASE_CC1P 41 O DATA20 PDN6 11 3 Hardware Interface Pin C1 Type C1 Name C2 2 40 VO RESERVED RESERVED 38 PW GND PW GND 36 O LED_GREEN O LED_GREEN 34 PW GND PW GND 32 O LED_RED O LED_RED 30 PW GND pw GND 28 O TCK TCK 26 PW GND PW GND 24 O TMS TMS 22 PW GND PW GND 20 O TDI O TDI 18 PW GND PW GND 16 TDO TDO 14 PW GND PW GND 12 O MISC_ANALOG RESERVED 10 PW GND PW GND 8 O MISC_DIGITAL O MISC_DIGITAL 6 PW G
7. ND PW GND 4 O GLOBAL_RESET O GLOBAL_RESET 2 PW GND pw GND Table 3 3 Definition of the pinout of the OEM camera module PCB connector even row pin 40 to 2 12 Table 3 4 Definition of the pinout of the OEM camera module PCB connector even row pin 80 to 42 Le Pin C1 Type C1 Name C2 Type C2 Name 80 PW VDD_50 PW VDD_50 78 PW VDD_33 PW VDD_33 76 PW VDD_33 PW VDD_33 74 PW VDD_18 PW VDD_18 72 PW GND PW GND 70 O TX NC NC 68 RX NC NC 66 PW GND PW GND 64 RESERVED RESERVED 62 RESERVED RESERVED 60 RESERVED RESERVED 58 y o RESERVED RESERVED 56 PW GND PW GND 54 RESERVED 1 0 RESERVED 52 RESERVED RESERVED 50 RESERVED RESERVED 48 RESERVED RESERVED 46 PW GND PW GND 44 RESERVED RESERVED 42 PW GND PW GND Pins described as reserved for future implementations can not a must be connected with spare I O signals on the customer s hardware side All pins should be left floating high impedance configuration on customer s hardware side For customer specific functionality these pins can be activated To enable the usage of both signal directions please connect to I O pins If ever possible avoid dedicated single direction pins on FPGA s C1 configuration modules For minimum configuration such as CameraLink like interfaces we recommend the implementation of the follow
8. NIR MV1 D20481 160 CL 10 MV1 D2048C 160 CL 10 OEM D2048 240 LC 8 OEM D20481 240 LC 8 4MP Color 4MP Mono 4MP NIR 3 3 3 2 2 2 3 MV 1 D2048 240 CL 8 MV1 D20481 240 CL 8 OEM D2048C 240 LC 8 4MP Color MV1 D2048C 240 CL 8 OEM L2048 160 LC 10 OEM L20481 160 LC 10 2MP Mono 3 3 2 2 MV 1 L2048 160 CL 10 MV 1 L20481 160 CL 10 OEM L2048C 160 LC 10 2MP NIR 2MP Color 2 MV 1 L2048C 160 CL 10 Table 4 1 Available Models OEM D2048 based on CameraLink standard cameras 22 Name Sensor Taps Clock Standard Camera OEM D2048x1088 80 LC 10 2MP Mono 2 40 MHz MV1 D2048x1088 80 G2 10 OEM D2048x10881 80 LC 10 2MP NIR 2 40 MHz MV1 D2048x10881 80 G2 10 OEM D2048x1088C 80 LC 10 2MP Color 2 40 MHz MV1 D2048x1088C 80 G2 10 OEM D2048x1088 96 LC 10 2MP Mono 2 48 MHz MV1 D2048x1088 96 G2 10 OEM D2048x10881 96 LC 10 2MP NIR 2 48 MHz MV1 D2048x10881 96 G2 10 OEM D2048x1088C 96 LC 10 2MP Color 2 48 MHz MV1 D2048x1088C 96 G2 10 OEM D2048 96 LC 10 4MP Mono 2 48 MHz MV1 D2048 96 G2 10 OEM D20481 96 LC 10 4MP NIR 2 48 MHz MV1 D2048 961 G2 10 OEM D2048C 96 LC 10 4MP Color 2 48 MHz MV1 D2048C 96 G2 10 OEM L2048 96 LC 10 2MP Mono 2 48 MHz MV1 L2048 96 G2 10 OEM L20481 96 LC 10 2MP NIR 2 48 MHz MV1 L20481 96 G2 10 OEM L2048C 96 LC 10 2MP Color 2 48 MHz MV1 L2048C 96 G2 10 Table 4 2 Available Models OEM D2048 based on GigE standard cameras
9. anical overview of OEM D2048 modules left Sensor PCB middle PCB connected right Processing PCB 4 4 1 OEM D2048 Sensor PCB Fig 4 4 shows the dimensions of the OEM D2048 Sensor PCB equipped with the CMV2000 2 MP sensor and Fig 4 5 equipped with the CMV4000 4 MP sensor An outline of the CMV2000 image sensor is shown in Fig 4 6 and of the CMV4000 in Fig 24 Figure 4 3 OEM D2048 modules side view A A 2 3 0mm 2 2 1mm image sensor ZE E E N SE ov WY Tilt x y 1 2 typ gt Tiltz TBD typ gt 4 2 lt 6 3mm lt 21 84 0 2 mm A 40 9mm gt 43 7mm gt vieu from sensor side Figure 4 4 Dimensions of the OEM D2048 Sensor PCB with CMV2000 2 MP sensor 4 4 Mechanical Interface 25 4 OEM D2048 2 1mm image sensor position hole optical center 43 7mm 40 Imm lt 21 84mm 0 2mm gt gt lt 2 8mm Tilt 1 2 typ gt gt lt 2 8mm lt 6 3mm Tiltz TBD typ lt 21 84 0 2mm gt 40 9mm 43 7mm gt vieu from sensor side Figure 4 5 Dimensions of the OEM D2048 Sensor PCB with CMV4000 4 MP sensor 2 69mm 0 10mm TOP VIEW 3 69mm 0 10mm 2 69mm 0 10mm 3 69mm 0 10mm TRANSPARANT TOP VIEW Figure 4 6
10. d The camera speed is usually the product of the camera interface clock in MHz and the number of parallel interface channels taps Interface type All modules covered by this chapter have a Low Power CMOS LVCMOS interface denoted by LC Interface resolution Maximal resolution bit width of the camera interface 21 4 OEM D2048 4 3 Available Models 4 1 Table 4 2 show lists of available OEM modules with the CMOSIS CMV2000 or CMV4000 image sensors These modules have the firmware of a corresponding standard camera which is shown in the list The specification of the functionality is shown in the chapter Functionality of the corresponding manual CL interface refer to MANO054 and for G2 interface refer to 55 The interface 15 not included in the OEM modules All available models use C1 configuration parallel data interface see also Section 8 1 2 OEM D2048x1088 160 LC 10 Sensor 2MP Mono Standard Camera MV1 D2048x1088 160 CL 10 OEM D2048x10881 160 LC 10 2MP NIR MV1 D2048x10881 160 CL 10 OEM D2048x1088C 160 LC 10 2MP Color MV1 D2048x1088C 160 CL 10 OEM D2048x1088 240 LC 8 2MP Mono MV1 D2048x1088 240 CL 8 OEM D2048x10881 240 LC 8 OEM D2048x1088C 240 LC 8 2MP NIR 2MP Color MV1 D2048x10881 240 CL 8 MV1 D2048x1088C 240 CL 8 OEM D2048 160 LC 10 AMP Mono MV1 D2048 160 CL 10 OEM D20481 160 LC 10 OEM D2048C 160 LC 10 4MP
11. e Configuration Description OEM D2048 C1 Based on the CMOSIS CMV2000 2048x1088 pixels and CMV4000 2048x2048 pixels image sensors see Chapter A Monochrome colour and NIR enhanced models available Table 2 1 OEM series described this manual for description of configuration see Section 3 1 2 2 Overview Hardware Interface 3 1 Connectors 3 1 1 Power Supply The requirements of the power supply are described in the model specific chapter 3 1 2 Pinout PCB connector The pinout of the OEM camera module PCB connector is listed in the following tables see Table 3 1 Table 3 2 Table 3 3 and Table 3 4 The signals are described in Table 3 5 Two different configurations are defined C1 Configuration Image data is transmitted parallel in the AIA standard as described C2 Configuration Image data is transmitted in serial LVDS CameraLink standard This configuration supports the CameraLink Full format Ce Which configuration is used is described in the model specific description of a module 3 Hardware Interface Pin C1 Type C1 Name C2 Type C2 Name 39 O DATA19 37 O DATA18 BASE_RXP 35 O DATA17 PDN4 33 O DATA16 BASE_TXN 31 O DATA15 BASE_TXP 29 O DATA14 PDN4 27 O DATA13 BASE_XCN 25 O DATA12 BASE_XCP 23 O DATA11 PDN3 21 O DATA10 BASE_X3N 19 O DATA9 BASE_X3P 17 O DATAS PDN2 15 O DATA7 BASE_X2N 1
12. es mentioned herein are trade marks or trade names of their respective companies 1 Preface Reproduction of this manual in whole or in part by any means is prohibited without prior permission having been obtained from Photonfocus AG Cg Photonfocus not be held responsible for any technical or typographical er rors 1 5 Legend In this documentation the reader s attention is drawn to the following icons CS Important note lt gt Alerts and additional information A Attention critical warning Notification user guide 2 Overview The Photonfocus OEM camera modules contain the image sensor and all the functionality from the standard camera except the interface and the power supply By using the Photonfocus OEM modules the user can focus on his specific application and shorten his development time Other than in Photonfocus cameras and board level cameras the OEM camera modules are not complete vision components The user has to design the interface to his own electronic solution to get a complete vision solution From this target some restrictions arise One restriction is that Photonfocus can not guarantee the correct function of the complete solution Due to the open architecture of the OEM modules excessive support is often needed to implement the modules in advanced embedded solutions Under defined boundary conditions Photonfocus provides this service on contract base The OEM modules are not
13. ing signals CC1 CC2 CC3 CC4 CL SPARE 3 1 Connectors 3 Hardware Interface Name Description BASE_CC lt n gt N LVDS negative CameraLink CAMERA CONTROL BASE lt gt BASE_RXN LVDS negative CameraLink SERTOCAM BASE RX BASE_TXN LVDS negative CameraLink SERTOFG BASE TX BASE_TXP LVDS positive CameraLink SERTOFG BASE TX BASE_X lt n gt N LVDS negative CameraLink DATA BASE X lt n gt BASE_X lt n gt P LVDS positive CameraLink DATA BASE X lt n gt 5 LVDS negative CameraLink CLOCK BASE BASE_XCP LVDS positive CameraLink CLOCK BASE XC lt gt Trigger input see Section 3 1 3 for additional information LVCMOS 3 3 V CL_SPARE Reserved for future implementations DATA lt n gt Image data bit lt n gt LVCMOS 3 3 V DATA_VALID Data valid indicates active data sampled with falling PIXEL_CLK edge LVCMOS 3 3 V DC_DC_CLK DC DC clock synchronisation pin for better noise performance Fixed switching frequency of 1 666 MHz We do not recommend to use this pin It is better to reduce power supply noise with an adequate filter FRAME_VALID Frame valid indicates active frame sampled with falling PIXEL_CLK edge LVCMOS 3 3 V GLOBAL_RESET Reset active low used as FPGA reset LVCMOS 3 3 V GND Ground LED_GREEN Module status indicator Indicates active image data transmission inverted FRAME_VALID LVCMOS 3 3 V LED_RED Module status indicator Indicates act
14. intended for the use in single volumes The threshold in volume is from 50 modules and more per year Long term contracts with the customer ensure the availability of the modules over a long period to predictable production dates For low volume projects please refer to our board level or camera products These products are complete vision products that include the software Due to the character of the board level and camera products Photonfocus can guarantee for the quality and functionality of these complete vision components The interface to the OEM modules a 80 pin Hirose DF17 connector The image data uses the well known AIA interface definition for vision systems FVAL LVAL DVAL DATA Trigger inputs and strobe outputs are available The user must supply 1 8 V 3 3 V and 5 V Control of the camera settings is done with a RS232 compatible asynchronous serial interface with LVCMOS levels There is a register based communication protocol ASCII protocol MANO50 that is suited for embedded application Another option is to set up the software on the base of the PFRemote SDK The Photonfocus software itself is platform independent and was already ported to different operating systems and embedded solutions Most OEM modules contain powerful FPGA devices and modifications in the firmware or in the software can be made on request on a contract base The OEM modules series that are described in this manual are listed in Table 2 1 Nam
15. ive RS232 communication LED_RED RX or TX signals active LVCMOS 3 3 V LINE_VALID Line valid indicates active line sampled with falling PIXEL_CLK edge LVCMOS 3 3 V MISC ANALOG Analog voltage for customer specific purpose 0V 5V Not provided all OEM camera module series MISC_DIGITAL Reset active low used as reset for CameraLink transceiver Compared to GLOBAL_RESET MISC_DIGITAL is delayed and the pulse is stretched LVCMOS 3 3 V NC Do not connect internally used signal PDN lt n gt Input with power down in FPGA should be grounded at interface PCB PIXEL_CLK Pixel clock RESERVED Reserved for future implementations RX RX RS232 interface to camera 3 3 V see Section Table 3 5 Signal description A R 14 Name Description STROBE Special strobe output Delay polarity and pulse width can be configured via software LVCMOS 3 3 V TCK JTAG chain can be routed to a customer JTAG connector TDI JTAG chain can be routed to a customer JTAG connector TDO JTAG chain can be routed to a customer JTAG connector TMS JTAG chain can be routed to a customer JTAG connector TRIGGER Special trigger input Can be configured via software LVCMOS 3 3 V TX TX 5232 interface from camera 3 3 see Section VDD_18 1 8 Volt power supply VDD_33 3 3 Volt power supply VDD_50 5 0 Volt power supply Table 3 6 Signal description S Z 3 1 Connec
16. led PFRemote pflib SDK can be downloaded from the Photonfocus web page 3 1 4 Module Connector The PCB board to board connectors DF17 series two piece connector stacking height 5 8 mm are available from Hirose www hirose connectors com Details of the order numbers are listed in Table Connector type Part Number virtual height location Header DF17 2 0 80DP 0 5V 2 mm Processing board Photonfocus side Receptacle DF17 4 0 80DS 0 5V 4 mm Processing board customer side Receptacle DF17 3 0 80DS 0 5V 3 mm Processing board customer side Table 3 10 Ordering details of the PCB board to board connectors HRS connectors Ee parts on the PCB boards implemented by Photonfocus are lt 3mm 3 1 Connectors 19 3 Hardware Interface Please check for the overall mounting height of the PCB board to board connec tor see Fig 3 2 The choice of a 5 mm receptacle may result in part collision Receptable Customer side DF17 80DS 0 5V 3mm Header Photonfocus side 4mm 2mm mating height DF17 2 0 80DP 0 5V not recommended 5 mm mating height 6 mm Figure 3 2 Mating height of the header and receptacle of the PCB board to board connectors Hirose connectors 20 4 OEM D2048 4 1 Overview The Photonfocus OEM D2048 imaging modules series is built around the CMOS image sensors 2000 and CMV4000 from CMOSIS that provide a resolution
17. nal e An image row starts with the rising edge of the LINE VALID signal and ends with the falling edge of the LINE VALID signal e Pixel data is valid only when FRAME VALID LINE VALID and DATA VALID are asserted at the same time It is allowed that DATA VALID goes low during a row as shown in Example 2 of Fig e number of pixels in a row is determined by the number of clock cycles where FRAME VALID LINE VALID and DATA VALID are asserted at the same time multiplied by the number of taps The number of pixels is the same in all rows of a frame e time between the rising edge of the FRAME VALID signal and the first rising edge of the LINE VALID signal first line pause can be as low as 0 clock cycles It is not required that this time is the same for all frames e time between a falling edge of the LINE VALID signal and the next rising edge of the LINE VALID signal line pause can be as low as 1 clock cycle It is not required that this time is the same for all rows e time between the last falling edge of the LINE VALID signal and the falling edge of the FRAME VALID signal last line pause can be as low as 0 clock cycles It is not required that this time is the same for all frames All modules that are described in this manual use either the 2 tap mode or the 3 tap mode The data assignments for the 2 tap mode is shown in Table 3 7 and for the 3 tap mode in Table 3 8 16 image frame
18. not apply to any product that has been modified or al A tered by any party other than manufacturer or for any defects caused by any use of the product in a manner for which it was not designed or by the negligence of any party other than manufacturer 31 5 Warranty 32 6 References All referenced documents can be downloaded from our website at www photonfocus com SW002 Documentation Photonfocus August 2005 010 Application Note Camera Clock Concepts Photonfocus July 2004 026 Application Note LFSR Test Images Photonfocus September 2005 MANO50 User Manual Register based ASCII Protocol Doc ID 050 MANO54 User Manual Photonfocus D L 2048 CameraLink Series Doc ID 054 055 User Manual Photonfocus D L 2048 Gigabit Ethernet Series Doc ID 055 33 6 References 34 Revision History A Revision 1 0 1 1 Date September 2013 November 2014 Changes First release OEM D2048 Missing values in electrical characteristics added 35
19. photon focus User Manual OEM Camera Module Series CMOS Area Scan Module Series 062 11 2014 V1 1 All information provided in this manual is believed to be accurate and reliable responsibility is assumed by Photonfocus AG for its use Photonfocus AG reserves the right to make changes to this information without notice Reproduction of this manual in whole or in part by any means is prohibited without prior permission having been obtained from Photonfocus AG Contents 1 1 About Photonfocus 1 2 1 3 Sales Offices EE 15 3_ Hardware Interface 3 1 CONNectors o 3 1 1 Power Supply 3 1 2 Pinout PCB connector 3 1 3 Parallel Data Interface C1 configuration 3 1 4 Module Connector 4 OEM D2048 TITIUS 3 Available Models 4 4 1 2048 Sensor 4 4 2 OEM D2048 Processing PCB 4 5 Power Supply 5 Warranty 5 1 Warranty Terms 5 2 Warranty Claim 6 References A Revision History CONTENTS CONTENTS Preface 1 1 About Photonfocus The Swiss company Photonfocus is one of the leading specialists in the development of CMOS image sensors and corresponding industrial cameras for machine vision Photonfocus is dedicated to making the latest generation of CMOS technology comme
20. rcially available Active Pixel Sensor APS and global shutter technologies enable high speed and high dynamic range 120 dB applications while avoiding disadvantages like image lag blooming and smear Photonfocus product range is complemented by custom design solutions in the area of camera electronics and CMOS image sensors Photonfocus is ISO 9001 certified All products are produced with the latest techniques in order to ensure the highest degree of quality 1 2 Contact Photonfocus AG Bahnhofplatz 10 CH 8853 Lachen SZ Switzerland Phone 41 55 451 00 00 Email sales photonfocus com Support Phone 41 55 451 00 00 Email support photonfocus com Table 1 1 Photonfocus Contact 1 3 Sales Offices Photonfocus products are available through an extensive international distribution network and through our key account managers Contacts to our key account managers can be found at www photonfocus com 1 4 Further information Photonfocus reserves the right to make changes to its products and documenta Ce without notice Photonfocus products are neither intended nor certified for use in life support systems or in other critical systems The use of Photonfocus products in such applications is prohibited Photonfocus is a trademark and LinLog is a registered trademark of Photonfo cus AG CameraLink and GigE Vision are a registered mark of the Automated Imaging Association Product and company nam
21. tage VDD_18 Supply Voltage VDD_33 Supply Voltage VDD_50 MIN TYP MAX 1 764V 1 8V 1 836V 3 234 V 3 3V 3 366 V 4 900V 5 0V 5 100 V Supply Voltage Pv 2 88 W Table 4 3 Electrical characteristics of the OEM D2048 camera module Indicated values are typical values at 25 C Parameter Symbol MIN TYP MAX Supply Current IDD_18 0 mA 0 mA Supply Current IDD 33 E 102 mA 2080 mA Supply Current IDD 50 500 mA 820 mA Table 4 4 Electrical characteristics of the OEM D2048 camera module Indicated values are typical values at 25 C 4 5 Power Supply 29 4 OEM D2048 30 Warranty The manufacturer alone reserves the right to recognize warranty claims 5 1 Warranty Terms The manufacturer warrants to distributor and end customer that for a period of two years from the date of the shipment from manufacturer or distributor to end customer the Warranty Period that e the product will substantially conform to the specifications set forth in the applicable documentation published by the manufacturer and accompanying said product and e the product shall be free from defects in materials and workmanship under normal use The distributor shall not make or pass on to any party any warranty or representation on behalf of the manufacturer other than or inconsistent with the above limited warranty set 5 2 Warranty Claim The above warranty does
22. tors 15 3 Hardware Interface 3 1 3 Parallel Data Interface C1 configuration The interface of the OEM camera modules in C1 configuration see Section 1 is a parallel data interface which follows the AIA standard On the module connector the signals are available in a parallel format The AIA standard contains signals for transferring the image data control information and the serial communication The user s vision system needs to be configured with the proper tap and resolution settings otherwise the image will be distorted or not displayed with the correct aspect ratio Image Data Interface The image data is transmitted by the DATA signal and by the control signals FRAME_VALID LINE_VALID and DATA_VALID All are sampled by the falling edge of the PIXEL_CLK signal which makes it easy to sample the signals with the rising clock edge at the receiver side An example timing diagram is shown in Fig 3 1 for a 2 tap channel 8 bit data output The word tap is used for parallel data channels e g 2 taps means that always 2 pixels are transmitted in parallel Not all camera modules produce an image output exactly as shown in the diagram but the following rules are respected by all camera modules e All image data signals are synchronous to the PIXEL signal All are sampled on the falling clock edge e Animage frame starts with the rising edge of the FRAME VALID signal and ends with the falling edge of the FRAME VALID sig
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