NOM03A6-- AY17G 300DPI High-- Speed Contact Image Sensor Module Description The NOM03A6--AY17G contact image sensor (CIS) module integrates a yellow LED light source with reflector, lens and image sensor in a compact housing. The module is designed for document scanning, mark reading, gaming and office automation equipment applications and is suitable for scanning documents up to 104 mm wide. An analog video output achieves a scanning rate of 250 msec/line. The NOM03A6--AY17G module employs proprietary CMOS image sensing technology from ON Semiconductor to achieve high--speed performance and high sensitivity. http://onsemi.com Features • • • • • • • • • • • Light Source, Lens and Sensor are Integrated Into a Single Module 104 mm Scanning Width at 11.8 dots per mm Resolution 250 msec/Line Scanning Speed @ 5.0 MHz Pixel Rate Analog Video Output Supports A6 Paper Size at up to 138 Pages per Minute Yellow LED Light Source with Reflector Wide Dynamic Range Compact 119.7 mm x 19.0 mm x 13.7 mm Module Housing Low Power Light Weight 1.1 oz Packaging These Devices are Pb--Free, Halogen Free/BFR Free and are RoHS Compliant IMAGE SENSOR MODULE A6 CASE MODAF MARKING DIAGRAM NOM03A6--AY17G YYMMSSSSSS YY MM SSSSSS G = Year = Month = Serial Number = Pb--Free Package CONNECTOR PIN ASSIGNMENT Contact Image Sensor Module Analog to Digital Converters LED Drivers Paper Insertion Sensing Switch Scan System Timing and Control Motor Motor Controller and Driver DSP VDD VSS GND SP GND CP GLED VLED Ticket, Check and Card Scanners Receipt Scanners Mark Readers Office Automation Equipment GND • • • • VOUT Applications 1 2 3 4 5 6 7 8 9 10 ORDERING INFORMATION See detailed ordering and shipping information in the package dimensions section on page 2 of this data sheet. Parallel Port Transceiver Figure 1. Typical Scanner Application © Semiconductor Components Industries, LLC, 2010 June, 2010 -- Rev. 0 1 Publication Order Number: NOM03A6--AY17G/D NOM03A6--AY17G Table 1. ORDERING INFORMATION Part Number NOM03A6--AY17G Package Shipping Configuration (Pb--free) 100 per packing carton Yellow LED Light Bar VLED GLED VDD (+5 V) Rod Lens GND VSS (--5 V) Photo Sensor Array SP Buf CP Buf 1 2 3 4 1248 Amp Shift Register Pixel 1 corresponds to connector end of the module Figure 2. Simplified Block Diagram Table 2. PIN FUNCTION DESCRIPTION Pin Pin Name Description 1 VOUT Analog Video Output 2 GND Ground 3 VDD +5 V power supply 4 VSS --5 V to --12 V power supply 5 GND Ground 6 SP 7 GND 8 CP 9 GLED Ground for the LED light source 10 VLED Power supply for the LED light source Shift register start pulse Ground Sampling clock pulse http://onsemi.com 2 VOUT NOM03A6--AY17G Table 3. ABSOLUTE MAXIMUM RATINGS Parameter Symbol Value Unit VDD 7 V VSS --15 V VLED 6 V Power supply current ILED 450 mA Input voltage range for SP, CP Vin --0.5 to VDD + 0.5 V Storage Temperature TSTG --20 to 75 °C Storage Humidity, Non--Condensing HSTG 10 to 90 % ESDHBM ±2 kV Power supply voltage ESD Capability, Contact Discharge (Note 1) Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability. 1. This module assembly has been ESD tested to IEC61000--4--2 (HBM) Contact Discharge Table 4. RECOMMENDED OPERATING RANGES (Unless otherwise specified, these specifications apply TA = 25°C) (Note 2) Parameter Power supply voltage (Note 3) Min Typ Max Unit VDD 4.5 5 5.5 V VSS --12 --5 --4.5 V VLED 4.5 5 5.5 V IDD 20 30 40 mA ISS 5 6 7 mA ILED 250 300 350 mA Low level input voltage for SP, CP VIL 0 0 0.8 V High level input voltage for SP, CP VIH 4.5 5.0 VDD + 0.3 V Line scanning rate (Note 4) Tint 227 250 624 ms Clock frequency (Note 5) f 2.0 5.0 5.5 MHz Clock period to 182 200 500 ns Clock pulse width (Note 6) tw 46 50 125 ns Clock pulse high duty cycle DCCP 20 25 60 % 180 480 ns Power supply current Start pulse width (Note 6) 2. 3. 4. 5. 6. 7. Symbol twSP 150 Start pulse setup time tsu 20 ns Start pulse hold time th 20 ns Prohibit crossing time (Note 7) tprh 20 ns Clock to Video output propagation delay rising tpcor 115 ns Clock to Video output propagation delay falling tpcof 20 ns Operating Temperature Top 0 50 °C Operating Humidity, Non--Condensing Hop 10 60 % Refer to Figure 3 for more information on AC characteristics VLED directly affects illumination intensity, which directly affects VOUT. Tint is the line scanning rate or integration time. Tint is determined by the interval between two start pulses. The clock is proportional to Tint. Main clock frequency (f) corresponds to the video sampling frequency. Min, Typ, Max specifications reflect operation at the corresponding Min, Typ, Max clock frequency. Prohibit crossing time is to insure that two start pulses are not supplied in the same scan line time. SP may only be active high during one falling edge of CP for any given scan. http://onsemi.com 3 NOM03A6--AY17G Table 5. PHYSICAL SPECIFICATIONS Symbol Typ Unit Scan width Parameter PDw 104 mm Number of Photo Detector Arrays PDAn 13 arrays PDn 1248 elements Number of Photo Detectors Table 6. PHYSICAL CHARACTERISTICS Parameter Pixel pitch Symbol Min PDsp Typ Max 84.7 Unit mm Inter--array spacing PDAsp 150 180 210 mm Inter--array vertical alignment PDAvxp --40 0 40 mm Yellow LED peak wavelength λp 566 575 581 nm Table 7. ELECTRO--OPTICAL CHARACTERISTICS TEST CONDITIONS Parameter Symbol Value Unit VDD 5.0 V VLED 5.0 V f 5.0 MHz DCCP 25 % Tint 250 ms LED arrays pulsed time on (Note 8) LED_Ton 26 ms LED arrays pulsed time off (Note 8) LED_Toff 356 ms Top 25 °C Power supply voltage Clock frequency Clock pulse high duty cycle Line scanning rate Operating Temperature 8. Production tested with pulsing LEDs. http://onsemi.com 4 NOM03A6--AY17G Table 8. ELECTRO--OPTICAL CHARACTERISTICS (Unless otherwise specified, these specifications were achieved with the test conditions defined in Table 7) Symbol Parameter Bright analog output voltage (Note 9) Bright output non--uniformity (Note 10) Min Typ Max Unit Vpavg 0.9 1.0 1.1 V Up --30 30 % % Bright output non--uniformity total (Note 11) Uptotal 60 Adjacent pixel non--uniformity (Note 12) Upadj 25 % Vd 200 mV 75 mV Dark output voltage (Note 13) Dark non--uniformity (Note 14) Ud Modulation transfer function at 75 line pairs per in (lp/in) (Note 15) MTF75 30 % Modulation transfer function at 150 line pairs per in (lp/in) (Notes 15, 16) MTF150 15 % 9. Vpavg = Σ Vp(n)/1248, where Vp is the pixel amplitude value of VOUT for a bright signal defined as a white document with LEDs turned on, n is the sequential pixel number in one scan line. 10. Up = [(Vpmax – Vpavg)/Vpavg] x 100%, or [Vpavg – Vpmin)/Vpavg] x 100%, whichever is greater, where Vpmax is the maximum pixel voltage of any pixel at full bright Vpmin is the minimum pixel voltage of any pixel at full bright 11. Uptotal = [(Vpmax – Vpmin)/Vpavg] x 100%, 12. Upadj = MAX [ | (Vp(n) – Vp(n+1) | / Vp(n)] x 100%, where Upadj is the nonuniformity in percent between adjacent pixels for a bright background 13. Vd is the pixel amplitude value of VOUT for a dark signal defined as a black document with LEDs turned off 14. Ud = Vdmax – Vdmin, where Vdmax is the maximum pixel voltage of any dark pixel with the LEDs turned off Vdmin is the minimum pixel voltage of any dark pixel with the LEDs turned off 15. MTF = [(Vmax – Vmin)/(Vmax + Vmin)] x 100%, where Vmax is the maximum output voltage at the specified line pairs per inch (lp/in) Vmin is the minimum output voltage at the specified lp/in 16. For information only. to tw CP tprh tprh th SP tsu tpcof twSP Vd VOUT GND Vp tpcor Pixel 1 Pixel 2 Figure 3. Timing Diagram http://onsemi.com 5 Pixel 3 Pixel 4 NOM03A6--AY17G DESCRIPTION OF OPERATION processed, the motor advances the paper and the next scan The NOM03A6--AY17G module consists of 13 contact line is captured. image sensors, each with 96 pixel elements, that are Initialization cascaded to provide 1248 photo--detectors with their associated multiplex switches and double--buffered digital shift register that controls its sequential readout. A buffer Document no amplifies the video pixels from the image sensors and output Detected? the analog video signal of the module as shown in Figure 2. In operation, the sensors produce an analog image pixel Start Scan signal (or video signal) proportional to the exposure on the SP= , CP= CTR=0 corresponding picture elements on the document. The VOUT signal outputs 1248 pixels for each scan line. The CP= first bit shifted out from VOUT during each scan represents the first pixel on the connector end of the module. Read Pixel into Memory A pictorial of the NOM03A6--AY17G cross section view is shown in Figure 4. Mounted in the module is a one--to--one no graded--index micro lens array that focuses the scanned CTR++ == 1248 document image onto the sensing plane. Illumination is accomplished by means of an integrated LED light source. An internal reflector helps illuminate the document more Transfer Scan Line Data completely, eliminating shadows caused by wrinkles in the paper. All components are housed in a small plastic housing, Document yes which has a glass cover. The top surface of the glass acts as Detected? the focal point for the object being scanned and protects the imaging array, micro lens assembly and LED light source from dust. Done Functional Description Glass Window Document Surface Figure 5. Typical Scanner Algorithm Figure 5 outlines the basic steps in the scanner control sequence. First the circuits are initialized and the scanner waits for a document to be detected, usually by a paper sensing switch. Then a start pulse and clock pulse are supplied to capture a line image. At the next clock pulse the first pixel value appears on the output. The pixel can be stored in a local line buffer memory. Subsequent clocks cause the remaining pixels to be shifted out and stored in the line buffer. Once the complete line has been shifted out it can be transferred to the host application and the system advances the paper and the line scan process repeats until the paper sensing switch indicates the document has passed completely through the scanner. Light Path Rod Lens Module Housing LED Bar Sensors PCB Figure 4. Module Cross Section View Connector Pin Out Description Connections to the module are via a 2.4x14.50mm 10--pin connector (ECE part number EBW--PK23--P010L2--3Z) located at one end of the module as shown in the package drawing on page 8. The location of pin number 1 is indicated on the package drawing. Device Marking and Barcode Description Each module is marked with a tag that contains the part number, a number combining the manufacturing date code and serial number and a barcode. The barcode presents the date code and serial number in Interleave 2 of 5 barcode format as follows YYMMSSSSSS where YY is the year, MM is the month, and SSSSSS is the serial number. Scanner Applications A typical use of the NOM03A6--AY17G module in scanner applications is shown in Figure 6. The document to be digitized is fed into the scanner where a sensor detects its presence. The scanner then operates the motor to move the paper under the contact image sensor module. The module illuminates the paper with internal LEDs and the image sensor pixel array detects the amount of reflected light and simultaneously measures a full line of pixels which are sampled and transferred to a FIFO for storage and conversion to a parallel output format. Once the pixel line is Glass Lens Care Precautions should be taken to avoid scratching or touching the glass lens. The glass lens may be cleaned with alcohol. http://onsemi.com 6 NOM03A6--AY17G Figure 6. Typical Scanner Assembly http://onsemi.com 7 NOM03A6--AY17G PACKAGE DIMENSIONS IMAGE SENSOR MODULE A6 CASE MODAF ISSUE O NOTES: 1. DIMENSIONING AND TOLERANCING PER ASME Y14.5M, 1994. 2. CONTROLLING DIMENSION: MILLIMETERS. 3. LEADING EDGE OF THE APPROACH ANGLE ON THE GLASS IS LOWER THAN THE TOP OF THE HOUSING. 4. BORE DEPTH IS 6.0 WITH A 0.2 LEAD--IN CHAMFER. 5. PIN HEADER, MODEL NUMBER EBW--PK23--P010L2--3Z, 1X10 PIN, PITCH 1.25. 6. GLASS IS GLUED ON ALL 4 SIDES. 7. GLASS THICKNESS IS 1.85. 8. USE M2.3 SELF TAPPING SCREWS FOR MOUNTING. TORQUE SCREWS BETWEEN 1.80 KGF--CM AND 2.00 KGF--CM. 9. DIMENSION D1 DENOTES THE SCAN LENGTH. 10. DIMENSION K DENOTES THE POSITION OF THE FIRST PIXEL. MILLIMETERS DIM MIN MAX A 13.00 14.00 A1 6.70 7.70 A2 13.20 14.20 B 17.70 18.30 B1 18.70 19.30 B2 5.50 6.50 C 15.20 15.80 D 119.20 120.20 D1 104.00 REF E 2.10 2.30 H 34.80 35.80 J 5.70 6.30 K 6.00 8.00 L 6.00 REF http://onsemi.com 8 NOM03A6--AY17G PACKING DIMENSIONS NO. NAME MATERIAL 1 Shockproof Pad EPE 2 Packing Tray POLYFOAM 3 Conduct Electricity Sheet PE + CONDUCTIVE SHEET 4 Waterproof Bag PE 5 Packing Box-- Carton KRAFT PAPER The products described herein (NOM03A6--AY17G), is covered by one or more of the following U.S. patent; 6,025,935. There may be other patents pending. ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. “Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. 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